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i 

"          • 


PRELIMINARY  GENERAL  CATALOGUE 

OF  6188  STARS  FOR  THE  EPOCH  1900 

INCLUDING  THOSE  VISIBLE  TO  THE  NAKED  EYE 
AND  OTHER  WELL-DETERMINED   STARS 


March  i,  igi6 

Sheet  of  corrections  for  use  with  the  first  edition  (issued  in  1910)  of  Publication 
No.  115,  of  the  Carnegie  Institution  of  Washington,  entitled  "Preliminary 
General  Catalogue  of  6188  Stars  for  the  Epoch  1900,  including  those  visible 
to  the  naked  eye  and  other  well-determined  Stars,"  by  Lewis  Boss. 


515,  for  7  Persei  (x)i  cluster  here  should  read  7  Persei. 

5°7  ladd  in  cluster  h  Persei. 

519) 

"3  Udd  in  cluster  x  Persei. 

535J 

8 1 6,  for  +.0028  read  +.0034. 

923,  Remarks,  for  53  Eridani  read  36  Eridani. 
1349,  the  degrees  of  declination  should  be  aligned. 
1561,  for  4^2  read  var.  3*2  to  4^2. 
1641-2,  both  notes  pertain  to  1642. 
1706,  for  5  Monocerotis  read  Br.  981. 
1706,  for  var.  read  5.2  and  delete  4ICI9  to  5^4  in  footnote. 
2033,  f°r  "°°8  read  ~  Too8. 
2087,  for  a  Puppis  read  L  3044. 
2973,  for  +08°  read  +8°. 
3064,  for  -5°  read  -75°- 
3356,  for  22!i6  read  23?i6. 
3693,  for  L  5920  read  1/5921. 
3885,  for  —  !oi3  read  +^013. 
4067,  for  47  Librae  read  49  Librae. 
4493,  for  Sagitarii  read  Sagittarii. 
4936,  for  +^0025  read  +'0027. 
4955,  for  -6^853  read  +6^853. 
5067,  for  X  Cygni  read  Pulk65  2836. 
5349,  for  —  !ooo2  read  +"0001. 

5447-9,  invert  bracket  in  remarks,  so  that  both  notes  apply  to  5448. 
5660,  for  343°  read  243°,  footnote. 

PAGE      9,  heading,  for  ij'  read  p'. 

266,  line  1 1  from  bottom,  for  Doberk  read  Doberck. 

267,  line  4,  for  a2  read  a1. 
267,  line  6,  for  a1  read  a2. 

274,  line  28,  for  —1.33  read  —2.33. 

279,  line  26,  insert  comma  after  "observed  right-ascension." 

280,  in  formula,  for  et  read  (erf. 

280,  line  10  from  bottom,  for  ±"30  read  ±*3O. 
340,  line  i,  for  1880  to  1884  read  1880  and  1884. 


CORRECTIONS  TO  THE  PRELIMINARY  GENERAL  CATALOGUE. 

PAGE         VII,  line  Camb  30,  for  Vol.  X  read  Vol.  XI. 
VIII,  line  Saff  85,  for  1875  read  l885- 
XIII,  for  -too77  M  (-3.5)  read  -^0077  (M-3-s). 
XIX,  fourth  line  from  bottom,  for  0^36  read  0.36. 
XXVI,  eighth  line  from  top,  for  +  (8.7367^  i?  sin  S  read 

+  (8.7367^  ju*  sin  2$. 
XXXII,  line  27,  for  Pi  1900  read  Pi  1800. 

STAR  No.    387,  the  degrees  of  declination  should  be  aligned. 

515,  for  7  Persei  (x)i  cluster  here  should  read  7  Persei. 


7  ladd  in  cluster  h  Persei. 

519! 

533  >add  in  cluster  x  Persei. 

535J 

8  1  6,  for  +.0028  read  +.0034. 

923,  Remarks,  for  53  Eridani  read  36  Eridani. 
1349,  the  degrees  of  declination  should  be  aligned. 
1561,  for  4II"2  read  var.  3^2  to  4^2. 
1641-2,  both  notes  pertain  to  1642. 
1706,  for  5  Monocerotis  read  Br.  981. 
1706,  for  var.  read  5.2  and  delete  4^9  to  5*4  in  footnote. 
2033,  for  ''008  read  —  !oo8. 
2087,  for  a  Puppis  read  L  3044. 
2973,  for  +08°  read  +8°. 
3064,  for  -5°  read  -75°. 
3356,  for  22?i6  read  23^16. 
3693,  for  L  5920  read  L  5921. 
3885,  for  —".013  read  +Toi3. 
4067,  for  47  Librae  read  49  Libra. 
4493,  for  Sagitarii  read  Sagittarii. 
4936,  for  +'0025  read  +^0027. 
4955,  for  —  6?853  read  +6^853. 
5067,  for  X  Cygni  read  Pulk55  2836. 
5349,  for  —  !ooo2  read  +?oooi. 

5447-9,  invert  bracket  in  remarks,  so  that  both  notes  apply  to  5448. 
5660,  for  343°  read  243°,  footnote. 

PAGE      9,  heading,  for  i{  read  ju'. 

266,  line  ii  from  bottom,  for  Doberk  read  Doberck. 

267,  line  4,  for  a2  read  a1. 
267,  line  6,  for  a1  read  a2. 

274,  line  28,  for  -1.33  read  -2.33. 

279,  line  26,  insert  comma  after  "observed  right-ascension." 

280,  in  formula,  for  et  read  (e^2. 

280,  line  10  from  bottom,  for  ="="30  read  **3o. 
340,  line  i,  for  1880  to  1884  read  1880  and  1884. 


PRELIMINARY   GENERAL   CATALOGUE 


OF  6188  STARS  FOR  THE  EPOCH  1900 


INCLUDING  THOSE  VISIBLE  TO  THE  NAKED  EYE 
AND  OTHER  WELL-DETERMINED  STARS 


PREPARED  AT  THE  DUDLEY  OBSERVATORY, 
ALBANY,  NEW  YORK 

BY 

LEWIS    BOSS 

DIRECTOR  OF  THE  DEPARTMENT  OF  MERIDIAN  ASTROMETRY 
OF  THE  CARNEGIE  INSTITUTION  OF  WASHINGTON 


WASHINGTON,    D.  C. 

PUBLISHED  BY  THE  CARNEGIE  INSTITUTION  OF  WASHINGTON 

1910 


CARNEGIE   INSTITUTION   OF   WASHINGTON 
PUBLICATION  No.  115 


Sartoontj 

J.  8.  Cushlng  Co.  —  Berwick  A  Smith  Co. 
Norwood,  Mass.,  U.S.A. 


CONTENTS 


PAGE 

Introduction i 

Scope  of  the  Catalogue in 

History  and  Design  of  this  Work .in 

Description  of  the  Catalogue vn 

The  Standard  Catalogue xi 

Magnitude-Equation xin 

Selection  and  Improvement  of  Standards xiv 

Recapitulation xvi 

The  Columns  of  the  Catalogue xvn 

Adopted  Names xvn 

Magnitudes  of  the  Stars xix 

Right-Ascensions  and  Declinations xxn 

Mean  Epochs ....    xxv 

Annual  and  Secular  Variation  and  Third  Term  of  Precession xxv 

Formulas  of  Application xxvii 

Proper-Motions xxvm 

Probable  Errors xxx 

Method  of  correcting  the  Catalogue-Positions  and  Motions  by  Means  of  Additional 

Observations xxxin 

The  Notes  to  the  Catalogue    .....  xxxv 

Appendix  I,  Ephemerides  of  Polar  Stars xxxvi 

Appendix  II,  Notes  to  the  Catalogue,  Periodic  Proper-Motion,  etc.     .         .        .        xxxvn 

Appendix  III,  Systematic  Corrections  and  Weights xxxvn 

The  Catalogue         ....  .  1-249 

Appendix  I,  Ephemerides  of  Polar  Stars        ...  ...     251-262 

Appendix  II,  Notes  to  the  Catalogue,  Periodic  Proper-Motion,  etc.      .        .        .     263-278 

Appendix  III,  Systematic  Corrections  and  Weights 279~34S 


iii 


INTRODUCTION. 


The  General  Catalogue  of  6188  stars  herein  contained  is  the  result  of  an 
attempt  to  deduce  for  those  stars  the  most  accurate  positions  and  motions  that  are 
readily  attainable  from  the  means  at  command.  Computation  of  the  motions  has 
been  the  primary  aim  of  this  work.  Putting  the  results  in  the  form  of  a  star- 
catalogue  for  the  epoch  1900  is  a  natural  method  of  exhibiting  these  results  and  is, 
apparently,  the  most  useful  way  in  which  they'  could  have  been  presented ;  but 
it  has  not  been  at  any  time  the  first  consideration. 

The  accuracy  attained,  while  governed  in  the  first  line  by  the  supply  of  good 
observations  that  have  hitherto  been  made  upon  these  stars,  in  a  very  important 
degree  has  also  been  limited  by  practical  considerations  as  to  the  amount  of  com- 
puting that  has  been  available.  The  liberal  support  of  this  work  by  the  Carnegie 
Institution  has  somewhat  modified  this  point  of  view,  so  that  the  question  has  vir- 
tually been :  what  amount  of  computing  can  be  wisely  and  economically  devoted 
to  this  object  —  how  much  is  it  worth  while  to  expend  ? 

The  computations  for  this  catalogue  are  intended  to  be  practically  exhaustive 
(so  far  as  these  stars  are  concerned)  of  the  meridian-observations  of  precision  which 
have  been  made  from  the  time  of  Bradley  to  the  present  and  that  have  been  col- 
lected in  star-catalogues  of  comparatively  superior  accuracy  or  extent.  Such  zone- 
observations  as  those  of  Lalande,  Bessel,  Argelander,  Lamont,  and  others,  were 
omitted  from  the  computations  as  lacking  in  the  precision  requisite  for  the  present 
purpose.  There  were  also  excluded  many  series  of  observations  (mostly  found  in 
periodical  publications)  that  contain  only  a  small  number  of  stars  —  partly  because 
of  the  small  return  in  proportion  to  the  labor  involved  in  the  use  of  such  catalogues, 
and  more  particularly  because  of  the  difficulty  of  ascertaining  the  systematic  cor- 
rections that  such  catalogues  may  require.  Strictly  zodiacal  catalogues  were  not 
included  in  the  computations  because,  among  other  reasons,  even  without  them,  the 
motions  of  the  stars  within  the  zodiacal  region  can  usually  be  determined  with 
greater  precision  than  those  of  similar  classes  of  stars  without  that  region  —  because 
many  of  the  star-catalogues  of  earlier  dates  are  more  complete  in  the  neighborhood 
of  the  zodiac.  A  list  of  the  catalogues  of  observation  employed  in  the  construction 
of  this  work  is  given  later  in  this  Introduction. 

Many  years  have  passed  since  there  has  been  available  for  the  use  of  astron- 
omers a  general  catalogue  of  stars  founded  upon  the  combined  results  of  all 
the  principal  catalogues  of  observation.  Heretofore  the  General  Catalogue  of  8377 
Stars  by  Francis  Baily,  published  by  the  British  Association  for  the  Advancement 
of  Science  in  1845,  nas  constituted  the  first  and  last  attempt  of  this  kind  to  col- 
late the  results  of  meridian-observations  upon  the  stars  in  a  large  and  compre- 
hensive way.  Evidently  designed  to  facilitate  the  progress  of  meridian-astronomy 
in  practical  ways,  it  speedily  came  into  general  use  as  a  work  of  reference  of  very 
great  utility.  It  was  probably  not  designed  by  its  author  as  a  basis  of  further  investi- 


II  PRELIMINARY  GENERAL  CATALOGUE  OF   STARS  FOR    IQOO 

gation  in  any  critical  problem  requiring  the  most  accurate  available  values  either 
of  the  positions  or  motions  of  the  stars.  The  records  of  observation  then  were 
too  scanty  to  afford  much  hope  that  the  best  values  of  proper-motion  which  could  be 
computed  for  the  generality  of  stars  at  that  time  would  have  been  very  much  better 
than  rough  approximations,  or  otherwise  than  very  unsafe  for  the  purpose  of  pre- 
diction. Practical  considerations  seemed  to  be  opposed  to  any  very  great  refine- 
ment in  such  computations;  and  accordingly  no  such  refinement  appears  to  have 
been  attempted  in  the  construction  of  the  Catalogue  of  the  British  Association. 
Furthermore,  owing  to  the  amount  of  reliance  placed  upon  the  precision  of  star 
positions  obtained  from  Lacaille's  zones  (1750)  and  upon  Taylor's  earlier  results 
at  Madras  (which  contained  very  anomalous  errors  in  declination)  the  proper- 
motions  of  the  far  southern  stars  printed  in  the  "B.  A.  C."  are  wholly  unreliable. 

In  the  first  years  after  its  publication  the  B.  A.  C.  was  doubtless  used  to  a 
considerable  extent  for  predicting  positions  of  the  stars  to  be  used  in  problems  of 
precision ;  but  in  the  course  of  time  it  must  have  been  distinctly  seen  that  this  use 
of  the  Catalogue  was  no  longer  justified.  Yet  the  use  and  appreciation  of  that 
work  scarcely  waned  during  the  first  quarter  of  a  century  after  its  publication ;  and 
on  many  points  it  is  consulted  with  advantage  even  yet. 

It  seems  worth  while  to  have  recalled  these  facts  about  a  notable  work  in  the 
history  of  astronomy,  in  order  to  throw  into  proper  relief  the  remarkable  fact  that 
more  than  sixty  years  have  elapsed  since  the  publication  of  the  B.  A.  C.  without 
the  appearance  of  a  work,  or  combination  of  works,  to  take  the  place  it  once  held. 
The  construction  of  such  a  catalogue  has  been  suggested  from  time  to  time  in  a 
tentative  way,  but  seems  always  to  have  been  regarded  without  definite  encourage- 
ment. Apparently  two  ideas  have  operated  effectively  as  the  chief  obstacles  in 
carrying  out  the  preparation  of  an  extensive  general  catalogue  of  stars.  The  first 
has  been  that,  pending  the  completion  of  certain  works  of  meridian-observation,  the 
time  has  not  been  ripe  for  the  production  of  such  a  work.  The  second  is  analo- 
gous to  this,  viz. :  that  a  general  catalogue  aiming  to  exhaust  the  existing  material 
of  observation  upon  the  brighter  stars  (4,000  to  20,000  in  number,  say)  would  be 
almost  necessarily  out  of  date  soon  after  its  publication.  Very  quickly  the  need 
for  a  new  edition  would  be  felt,  owing  to  rapid  accumulation  of  further  meridian- 
observations.  But  these  objections,  whatever  force  they  may  have  against  the 
construction  of  a  star-catalogue  chiefly  for  the  sake  of  the  star-positions  it  contains, 
would  have  far  less  force  against  the  general  computation  of  proper-motions. 
From  time  to  time  these  are  needed  and  must  be  had  in  various  departments  of 
astronomical  research,  and  especially  for  the  study  of  general  stellar  problems  in  a 
variety  of  forms.  Therefore,  the  question  whether  it  is  worth  while  to  construct  a 
general  catalogue  of  the  principal  stars  becomes  a  question  whether  we  shall  incur 
the  proportionally  small  additional  labor  and  expense  involved  in  putting  general 
computation  for  proper- motions  into  the  form  of  a  published  catalogue,  after  the 
main  portion  of  the  required  computations  has  been  effected  for  another  purpose, 
of  conceded  utility.  Perhaps  the  answer  to  a  question  like  this  can  best  be  referred 
to  the  test  of  future  experience.  At  any  rate,  it  has  seemed  to  the  author  that  a 
great  variety  of  uses  would  be  subserved  by  the  publication  of  such  a  catalogue. 


INTRODUCTION  III 


SCOPE  OF  THE  CATALOGUE. 

This  Preliminary  General  Catalogue  contains  the  computed  positions  and  the 
motions,  for  the  epoch  1900,  of  6188  stars  that  are  regarded  as  specially  important. 

That  the  stars  ordinarily  visible  to  the  naked  eye  are  of  special  interest  would 
probably  be  generally  admitted  without  serious  protest,  not  only  because  that  is 
the  class  of  stars  which  most  attracts  attention  and  with  which  we  are  best  ac- 
quainted, but  also  because  it  is  extremely  probable  that  these  stars  are  in  general 
among  our  nearer  neighbors.  On  the  whole  they  have  been  more  frequently  and 
accurately  observed  in  the  past  than  any  of  the  fainter  classes  of  stars.  The  present 
Catalogue  contains  about  4030  stars  rated  upon  the  natural,  or  historic,  scale  herein 
adopted  as  of  the  sixth  magnitude,  or  brighter.  Of  these  the  count  shows  1919 
in  the  Northern  and  2111  in  the  Southern  hemisphere.  These  numbers  are 
approximate  only,  since  they  are  somewhat  dependent  upon  the  treatment  of  double 
stars ;  and  because  they  are  still  more  dependent  on  the  uncertainties  in  determining 
the  brightness  of  the  stars. 

Of  the  remaining  2158  stars  —  all  fainter  than  sixth  magnitude  —  a  few  are 
included  because  of  their  proximity  to  brighter  stars;  others  because  they  were 
observed  by  Bradley  (though  a  very  few  Bradley-stars  have  been  omitted);  and 
still  others  because  they  are  among  the  stars  whose  positions,  though  not  observed 
by  Bradley,  were  determined  with  a  considerable  degree  of  accuracy  previous  to 
1850.  For  all  these  stars  it  was  possible  to  determine  their  motions  with  greater 
accuracy  than  that  which  attaches  to  the  generality  of  faint  stars  not  included  in 
this  Catalogue.  Therefore,  these  stars  are  especially  interesting  for  two  reasons 
among  others:  First,  on  account  of  the  relative  accuracy  of  their  computed 
motion,  present  and  prospective,  they  afford  suitable  material  from  which  to  secure 
enlargement  of  the  existing  lists  of  standard  stars;  secondly,  these,  together  with 
the  great  majority  of  the  stars  visible  to  the  naked  eye,  furnish  the  best  available 
means  for  critical  tests  upon  certain  points  that  may  come  into  consideration 
relative  to  systematic  motions  of  the  stars. 

HISTORY  AND  DESIGN  OF  THIS  WORK. 

Perhaps  the  easiest  way  to  describe  the  place  in  the  line  of  sidereal  research 
which  this  work  is  designed  to  fill,  as  well  as  to  indicate  the  ideas  and  purposes  upon 
which  it  is  founded,  is  to  note  in  a  cursory  way  successive  steps  in  its  evolution. 

Many  years  ago  a  plan  was  formed  at  the  Dudley  Observatory  for  a  critical 
discussion  of  the  motions  of  all  stars  to  which  have  been  attributed,  with  reasonable 
probability,  motions  as  great  as  10"  per  century.  The  work  progressed  very  slowly 
at  first,  in  the  intervals  of  other  employments ;  but  as  it  proceeded  the  conviction 
grew  that  the  problems  for  which  we  need  a  knowledge  of  stellar  motions  require 
comprehensive  (not  fragmentary)  treatment,  if  a  given,  large  amount  of  labor  is 
to  be  expended  to  the  best  advantage.  Thus,  it  is  even  more  important  that  stellar 
motions  shall  be  free  from  systematic  errors  than  that  they  shall  be  merely  precise 
in  the  differential  sense.  But  if  that  be  so,  the  most  responsible  part  of  a  work 


IV  PRELIMINARY   GENERAL  CATALOGUE  OF   STARS   FOR    1 900 

aiming  to  compute  accurate  values  of  proper-motions  for  a  very  large  number 
of  stars  might  be  the  ascertainment  of  the  systematic  corrections  required  by  the 
various  star-catalogues.  This  will  readily  appear  upon  consultation  of  the  Tables 
of  Systematic  Corrections,  in  Appendix  III  of  this  volume.  This  correction  is 
especially  marked  for  Bradley's  declinations,  hitherto  a  very  important  element  in 
the  derivation  of  proper- motions.  For  large  areas  of  sky  south  of  +  40°  of  dec- 
lination, centennial  proper- motions  in  declination  computed  by  means  of  uncorrected 
declinations  of  Bradley-Auwers  compared  with  perfect  declinations  100  years 
later  would  systematically  differ  from  the  corresponding  quantities  printed  in  the 
present  work  by  i'/5,  or  more ;  and  in  the  zone  +  34°  to  +  38°  by  2"  or  more. 
While  this  may  be  an  extreme  illustration  it  serves  to  indicate  the  nature  of  possible 
effects  due  to  the  application  of  systematic  corrections  to  the  positions  contained 
in  the  catalogues.  It  becomes  obvious  that  when  we  are  dealing  with  the  smaller 
proper-motions  the  elucidation  of  the  amount  and  direction  of  residual-stardrift 
in  various  parts  of  the  sky  may  be  dependent  upon  the  systematic  errors  of  the 
star-catalogue  in  a  very  important  degree.  Governed  by  these  and  other  consider- 
ations, the  author  decided  to  alter  the  original  plan  of  reluctantly  confining  his 
attention  to  stars  having  only  comparatively  large  proper-motions,  and,  as  the 
indispensable  preliminary  to  his  work,  to  institute  a  thorough  inquiry  as  to  the 
systematic  corrections  required  by  the  various  catalogues  of  observation  in  order 
to  make  each  so  far  as  possible  systematically  conformable  with  the  combined 
result  from  all. 

It  is  not  necessary  here  to  trace  the  various  steps  in  these  operations.  It  is 
sufficient  to  say  that  the  plan  involved  the  preparation  of  an  extensive  catalogue  of 
standard  stars.  The  close  of  an  important  stage  of  this  work  was  marked  by  the 
publication  of  the  Catalogue  0/627  Principal  Standard  Stars,  together  with  various 
chapters  explaining  the  methods  employed  in  the  construction  of  that  catalogue  and 
exhibiting,  also,  the  systematic  corrections  required  by  the  various  star-catalogues 
in  order  to  bring  them  into  conformity  with  this  new  system.  (Ast.  Jour.,  Vol. 
XXIII.)  These  articles  were  also  reprinted  in  a  separate  publication  entitled, 
"Catalogue  of  627  Principal  Standard  Stars."  The  systematic  corrections  there 
published  have  since  been  subjected  to  thorough  revision  on  the  basis  of  a  greatly 
extended  list  of  gwaw'-standard  stars;  but,  fundamentally,  there  has  been  no 
sensible  alteration  of  the  general  system. 

From  the  beginning  of  this  work  it  had  been  assumed  to  be  quite  as  important 
that  we  should  know  the  motions  of  stars  in  the  Southern  hemisphere  as  in  the  North- 
ern. It  would,  therefore,  be  important  for  ascertaining  systematic  corrections  not 
only  that  there  should  be  formed  a  new  and  very  extensive  catalogue  of  standard 
stars,  distributed  over  the  entire  sky  from  pole  to  pole,  but  also  that  the  positions 
should  form  a  consistent  and  homogeneous  system  derived  from  careful  considera- 
tion of  all  suitable  observations  —  southern  as  well  as  northern.  This  catalogue 
would  have  to  be  extensive,  because  it  would  be  impossible  to  ascertain  properly 
the  systematic  corrections  required  for  the  larger  catalogues  —  like  Arm  40, 
Radcl  45,  Bruss  65,  Cord  75,  Cape  80,  etc.  —  without  a  much  larger  number  of 
comparisons  with  standard  stars  than  had  been  available  with  the  existing  catalogues 


INTRODUCTION  V 

of  standard  stars.  In  order  to  facilitate  the  selection  of  these  stars  it  was  apparent 
that  the  safest  and  most  economical  plan  would  be  to  form  a  card-catalogue  of 
all  the  stars  contained  in  what  may  be  termed  catalogues  of  precision  of  a  date 
of  observation  earlier  than  the  middle  of  the  nineteenth  century.  Those  stars 
contained  in  a  large  number  of  these  earlier  catalogues  would  be  more  useful  than 
others  for  ascertaining  the  systematic  corrections  of  these  same  catalogues,  both 
because  of  the  frequency  of  their  use  and  also,  since  the  motions  of  such  stars  can 
be  more  precisely  computed,  they  make  better  standards.  This  course,  once 
adopted,  rapidly  led  to  extensions  of  the  original  plan.  After  the  older  catalogues 
of  observation  had  been  drawn  off  upon  the  cards  (except  fainter  stars  of  Groomb 
10  and  Radcl  45),  including  all  the  important  ones  of  an  observation-date  earlier 
than  1855,  the  original  intention  had  been  not  to  include  the  later  catalogues  entire, 
but  to  transcribe  only  for  stars  found  in  the  earlier  catalogues.  But  it  now  seemed 
that  the  inclusion  of  all  stars  down  to  the  seventh  magnitude,  though  it  would  much 
increase  the  labor  of  transcription  for  the  remaining  catalogues,  might  later  prove 
to  be  very  desirable  in  view  of  the  development  of  our  plans  then  going  on; 
and  that  the  collection  so  formed  would,  in  any  case,  constitute  an  asset  of  value. 
This  extension  of  the  list  was  effected  slowly  and  rather  imperfectly  at  first,  but 
subsequently  was  improved.  In  its  present  state  the  card-catalogue  contains  about 
25,000  stars.  There  are  included  all  that  are  noted  in  the  Bonn  Durchmuslerung, 
Potsdam  Photometry,  Harvard  Photometry,  or  the  Uranometria  Argentina  as  of  the 
magnitude  7^0  or  brighter. 

The  inclusion  in  our  list  of  stars  down  to  the  seventh  magnitude,  in  addition  to 
all  stars  occurring  in  certain  catalogues  of  precision  of  the  first  half  of  the  nineteenth 
century,  was  primarily  due  to  the  desire  of  selecting  stars  upon  some  simple  criterion 
which  should  give  promise  at  the  same  time  that  the  stars  so  selected  would  be : 

1.  On  the  whole,  nearer  our  system  than  the  stars  not  included. 

2.  As  a  rule,  better  observed  than  the  others. 

3.  For  certain  technical  reasons,  not  chosen  with  reference  to  the  amount 

of  proper-motion  any  particular  star  may  have. 

In  this  collection  was  presented  an  almost  irresistible  temptation  to  ascertain, 
so  far  as  possible,  the  motion  of  each  star  therein,  and  eventually  to  produce  an 
extensive  general  catalogue  of  the  positions  and  motions  of  these  25,000  stars. 

Meanwhile  we  were  at  work  upon  the  "Catalogue  of  627  Principal  Standard 
Stars"  already  mentioned,  and  upon  its  subsequent  extensions,  resulting  for  the 
time  being  in  computed  positions  and  motions  for  about  2500  so-called  Standard 
Stars. 

About  that  time,  in  1903,  the  Carnegie  Institution  of  Washington  had  come  to 
the  aid  of  this  work ;  and  three  years  later  had  so  far  increased  its  interest  as  to 
develop  this  project  into  its  Department  of  Meridian  Astrometry,  with  liberal 
appropriations  for  carrying  out  the  construction  of  the  proposed  large  general 
catalogue  (including  about  25,000  stars)  to  which  allusion  has  already  been  made. 
To  complete  this  extensive  work,  including  heavy  tasks  in  meridian-observation 
as  planned,  would  evidently  be  the  labor  of  many  years.  The  question  naturally 
came  up  whether  it  would  be  necessary  to  defer  the  publication  of  all  catalogue- 


VI  PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    1 900 

results  until  the  completion  of  the  entire  work,  so  far  as  now  definitely  planned.  It 
seemed  to  the  author  that,  generally  speaking,  the  work  ought  to  be  so  planned  that 
parts  of  it  which  may  be  useful  in  the  progress  of  science  could  be  published  with 
advantage  whenever  such  results  in  a  well-defined  field  have  been  attained  in  the 
current  computations,  even  though  these  partial  results  might  be  swallowed  up 
later  in  the  final  results. 

Meanwhile,  the  desire  to  provide  the  means  for  present  utilization  of  some  of  the 
smaller  and  less  precise  star-catalogues,  as  well  as  of  the  Gesellschaft-zoms,  through 
the  ascertainment  of  their  systematic  errors,  had  brought  about  the  increase  of  the 
so-called  standard  catalogue  to  nearly  4000  numbers.  It  then  appeared  that  to 
increase  this  list  still  further,  to  include  especially  all  stars  of  the  sixth  magnitude 
or  brighter,  would  add,  proportionally,  no  excessive  amount  of  labor.  Thus  the 
resolution  was  somewhat  suddenly  formed  to  present  for  publication,  at  an  early 
date,  this  General  Catalogue,  preliminary  to  the  much  more  extensive  one  that  is 
contemplated  as  among  the  favorable  probabilities.  These  results  might  have  been 
held  back  to  await  completion  of  the  larger  work,  but  this  course  would  have  entailed 
delay  in  making  generally  available  what  are  believed  to  be  useful  results. 

Thus  the  preparation  of  this  work  for  publication  at  once  is  not  so  much  the 
result  of  an  original  deliberate  plan  as  it  is  the  consequence  of  an  evolution  in  the 
progress  of  these  investigations. 


In  addition  to  acknowledgments  for  assistance  in  the  preparation  of  this 
Catalogue  furnished  by  Dr.  Seth  C.  Chandler,  and  by  the  directors  (and  other 
astronomers)  of  various  observatories,  mentioned  at  appropriate  places  in  these 
pages,  my  thanks  are  due  to  the  corps  of  assistants  and  computers  who  have 
labored  so  zealously  upon  this  work.  Mr.  Arthur  J.  Roy,  chief  assistant,  has  been 
of  very  great  service  in  all  departments  of  the  work,  and  particularly  in  applying 
the  checks  and  scrutiny  necessary  for  the  avoidance  of  errors  in  the  final  work.  For 
this  duty  he  has  an  unusual  aptitude;  and  if  the  results  of  computation  as  they 
appear  in  the  final  manuscript  should  prove  to  be  unusually  free  from  mistakes, 
this  will  be  due  as  much  to  the  skill  and  diligence  of  Mr.  Roy  as  to  my  own  efforts. 
Mr.  Varnum,  besides  other  responsible  work,  took  charge  of  the  solution  of  equations 
of  condition  employed  in  deduction  of  the  positions  and  annual  variations  of  the 
stars.  Miss  Beulah  Benway  is  also  deserving  of  special  recognition  for  the  great 
extent  and  accuracy  of  her  work  upon  the  more  responsible  parts  of  the  computations. 
In  fact,  all  the  members  of  the  staff  of  assistants  and  computers  labored  with  the 
zeal  and  industry  betokened  by  a  personal  interest  in  the  work.  The  reading 
of  proof-sheets  for  the  Catalogue  itself  was  carried  through,  during  my  absence 
from  the  country,  under  charge  of  Mr.  Benjamin  Boss,  Secretary  of  the  Dudley 
Observatory. 


INTRODUCTION 


VII 


DESCRIPTION  OF  THE  CATALOGUE. 

A  few  words  more  specifically  descriptive  of  the  contents  of  the  Catalogue  and 
explanatory  of  certain  points  in  its  scope,  construction,  and  use  may  now  be  in 
order.  First,  let  us  consider  the  material  of  observation  actually  included  in  its 
construction.  Search  was  made  in  every  published  catalogue  of  the  following  list 
for  positions  of  stars  contained  in  this  Preliminary  General  Catalogue.  It  does  not 
seem  necessary  to  give  the  full  title  in  each  case,  but  only  enough  to  make  the 
identification  clear.  The  abbreviations  ordinarily  employed  in  our  manuscript 
computations  to  designate  the  respective  catalogues  are  also  given. 

Br  1755-  Auwers's  new  reduction  of  Bradley's  transit  and  quadrant  observations,  St.  Petersburg, 
1888. 

Pi  oo.         Piazzi's  observations  made  at  Palermo  around  1800,  second  edition  1814. 

Groomb  10.  The  new  reduction  of  Groombridge's  circumpolar  observations  around  1810,  by 
Messrs.  Dyson  and  Thackeray. 

Kb'n  15.  Bessel's  right-ascensions  from  the  Dolland  Transit  reduced  to  1815,  Konigsberger  Observa- 
tions, Parts  39  and  40.  The  corresponding  declinations  have  not  been  employed. 

Grw  15.    Auwers's  new  reduction  of  Pond's  observations  at  Greenwich,  1811-1819,  reduced  to  1815. 

Dpt  15.  Right-ascensions  from  Struve's  transit-observations  at  Dorpat  in  1814-1815.  (Dorpat 
Observations,  Vol.  I,  Part  II.)  Manuscript  catalogue;  see  Rem.  (4),  App.  Ill  of 
this  volume. 

Kb'n  20.  Bessel's  fundamental  observations,  around  1825,  with  the  Reichenbach  Circle.  The 
right-ascensions  are  taken  partly  from  the  Berlin  Memoirs  for  1825,  p.  23,  of  Part  II, 
and  partly  from  the  Konigsberger  Observations,  Vols.  VI  and  X.  The  declinations  are 
taken  from  Dollen's  revision  of  Bessel's  reduction,  as  published  in  Vol.  II,  Recueil 
de  Mem.  Obs.  Cent,  de  Russie,  pp.  203-232. 

Schw  28.  Schwerd's  circumpolar  observations  reduced  by  Oeltzen  to  1828.  (Denkschriften  der 
Wiener  Academic,  Bd.  X.) 

Brisb  25.    The  Brisbane  Catalogue  for  1825.    The  right-ascensions  are  not  employed. 

Cape    30.    The  observations  of  Fallows  at  the  Cape  of  Good  Hope. 

Camb  30.    Airy's  Cambridge  Observations  for  1830.     (Mem.  R.A.S.,  Vol.  XI) 

Wrot  30.     Wrottesley's  right-ascensions  for  1830.     (Mem.  R.A.S.,  Vol.  X.) 

St  H   30.    Johnson's  Catalogue  of  606  Stars  for  1830  from  St.  Helena  observations. 

o  o 

Abo     30.    Argelander's  Abo  Catalogue  for  1830. 

Grw    30.    Pond's  catalogue  of  1112  stars  for  1830. 

Dpt  30.  Struve's  catalogue  for  1830  in  the  Positiones  Media.  "Correctiones  Ultimae,"  pp.  361- 
371,  were  first  applied  to  the  catalogue  positions.  The  positions  of  certain  standard 
stars  given  for  1824  were  taken  from  the  Introduction,  pp.  48-50. 

Cape    33.    Henderson's  observations  at  the  Cape  of  Good  Hope  reduced  to  1833.    (Mem.  R.A.S.) 

Madr  35.    Downing's  new  reduction  to  1835  of  Taylor's  Madras  observations. 

Edinb  40.     Halm's  new  catalogue  for  1840  of  Henderson's  observations  at  Edinburgh,  1835-1844. 

Arm    40.     Robinson's  Armagh  Catalogue  for  1840. 

Cape    40.    Cape  Catalogue  for  1840,  reduced  by  Stone. 

Grw  40  and  Grw  45.    The  two  parts  of  the  Greenwich  i2-yr.  Catalogue. 

Radcl  45.    The  Radcliffe  Catalogue  of  6317  stars  for  1845  by  Johnson. 


PRELIMINARY   GENERAL   CATALOGUE   OF    STARS    FOR    1900 

Pulk   45.    Catalogues  for  1845  of  stars  observed  with  the  Transit  and  Prime  Vertical  Circle  at 

Pulkowa. 
Paris  45.     First  epoch,  1845,  of  the  Catalogue  of  the  Paris  observations  —  mainly  reobservation  of 

Lalande  stars. 
Stgo    50.    Catalogue  of  1963  stars  for  1850  from  Gillis's  observations  at  Santiago  de  Chile.     (Wash. 

Obsns.,  1868.) 
Gillis  Z  50.    Catalogue  of  16,748  stars  for  1850  from  observations  of  southern  circumpolar  stars  at 

Santiago,  Gillis.     (Wash.  Obsns.,  1890.) 
Cape   50.    Cape  Catalogue  for  1850  edited  by  Gill. 
Grw    50.    The  Greenwich  six-year  catalogue  for  1850. 
Pulk    55.    Catalogue  for  1855  of  observations  made  with  the  Repsold  Meridian-Circle  of  the  Pulkowa 

observatory.    This  catalogue  is  in  two  parts,  one  containing  3542,  and  the  other  1404 

numbers  respectively.    (See  Pulk.  Obsns.,  Vol.  VIII.) 
Carr    55.    The  circumpolar  catalogue  of  Carrington  for  1855. 
Stgo  55  and  Stgo  60.    The  catalogues  from  Santiago  observations  byMoesta,  reduced  to  1855  and 

1860  respectively. 

Wash  60.    Yarnall's  catalogue  for  1860,  third  edition,  Frisby. 
Cape  60.    The  Cape  Catalogue  for  1860,  reduced  by  Stone. 
Grw    60.    The  Greenwich  seven-year  catalogue  for  1860. 
Radcl  60.    The  second  Radcliffe  Catalogue  for  1860,  Main. 
Melb  60.    Catalogue  of  546  stars  observed  at  Williamstown  (Australia)  and  reduced  to  1860. 

(Melb.  Obsns.,  Vol.  I.) 

Paris  60.    Second  epoch,  1860,  of  the  Paris  Catalogue. 
Grw    64.    The  second  seven-year  catalogue  of  Greenwich  for  1864. 
Harv   65.    Catalogue  for  1865  of  right-ascensions  observed  at  the  Harvard  College  observatory, 

506  stars,  Safford.    (Harv.  Ann.,  Vol.  IV,  Pt.  II.) 
Cape  65.    The  Cape  Catalogue  for  1865,  prepared  by  Gill. 

Bruss  65.    The  general  catalogue  for  1865  of  the  Brussels  observations,  1857-1878. 
Pulk   65.    Observations  made  at  Pulkowa  with  the  Transit  and  Vertical  Circle  reduced  to  1865, 

and  published  in  four  catalogues. 
Grw    72.    The  Greenwich  nine-year  catalogue  for  1872. 
Melb   70.    The  Melbourne  Catalogue  for  1870. 

Wash  75.  The  Washington  Catalogue  for  1875,  transit-circle,  Eastman. 
Cord  75.  Gould's  Cordoba  General  Catalogue  of  32,448  stars  for  1875. 
Madr  75.  Catalogue  of  Madras  observations  for  1875. 

Pulk    75.     Romberg's  catalogue  for  1875,  of  observations  made  at  Pulkowa  with  the  meridian-circle. 
Becker  75.  Becker's  catalogue  for  1875  of  521  Bradley-stars,  Berlin. 
Harv  75.    The  catalogue  for  1875  of  1213  stars,  Rogers.     (Harv.  Annals,  Vol.  XV,  Pt.  I.) 
Paris  75.    Third  epoch,  1875,  of  the  Paris  Catalogue. 
AGZ    75.    The  zone-catalogues  of  the  Astronomlsche  Gesellschaft  for  1875,  extending  from  +80° 

to  —10°  (+70°  to  +75°  excepted).     (The  places  of  these  stars  were  adopted  in  the 

computations  only  for  a  small  number  of  stars  unusually  deficient  in  observations  of 

an  early  date.) 

Cape   80.    Stone's  Cape  Catalogue  for  1880. 
Grw    80.    The  Greenwich  ten-year  catalogue  for  1880. 
Melb    80.    The  second  Melbourne  Catalogue  for  1880. 
Saff    85.     Catalogue  for  **^.of   right-ascensions  of  circumpolar  stars.     Safford,  Williamstown, 

Mass. 


INTRODUCTION  DC 

Strassb  85.  The  catalogues  for  1885  from  the  Strassburg  observations  (Vol.  II);  the  first,  of  254 

stars  ;   second,  of  858  stars  ;   third,  of  368  fundamental  stars. 
Cape   85.    Gill's  Cape  Catalogue  for  1885. 
Pulk   85.    Pulkowa  catalogues  for  1885,  based  upon  observations  with  the  transit  and  prime  vertical 

circle.     ("  Etoiles  occasionnellement  absences,"  in  1845,  1865,  and  1885,  are  included  in 

the  computations  for  the  General  Catalogue.) 
Radcl  90.    Stone's  Radcliffe  Catalogue  for  1890. 
Cine    90.     Porter's  Cincinnati  Catalogue  for  1890. 
Cape    90.    Gill's  Cape  Catalogue  for  1890. 
Grw    90.    The  Greenwich  ten-year  catalogue  for  1890. 
Berl    90.    Kiistner's  Berlin  catalogue  for  1890.    (Taken  partly  from  Ast.  Nach.,  Nos.  3392  and  3393, 

and  partly  from  a  manuscript  kindly  forwarded  by  Professor  Kiistner.) 
Madn  90.    Results  of  observations  around  1890  upon  the  stars  of  the  Berliner  Jahrbuch,  Brown, 

Madison,  Wis. 
Lisbon  90.  Results  in  right-ascension  of  observations    around    1890   upon  stars  of  the  Berliner 

Jahrbitch.     Rodrigues,  Lisbon.     (Ast.  Nach.,  3813-3814.) 

Pulk  92.    Catalogue  of  right-ascensions  for  1892  from  observations  made  at  Pulkowa. 
Miin  92.     Small  catalogue  of  declinations  observed  with  the  Repsold  circle  at  Munich.    Bauschinger. 
Lick    95.    Catalogue  for  1895  of  310  ephemeris-stars  observed  by  Tucker.     (L.  O.  Publ.,  Vol.  IV.) 
Berl    95.    Battermann's  catalogue  of  1640  stars  observed  with  the  Repsold  circle  of  the  Berlin 

observatory. 
W-Ott  97.    Small  catalogue  of  184  declinations,  observed  and  reduced  by  Grossmann,  at  the  Von 

Kuffner  Observatory,  Wien-Ottakring.     (Kon.  Sachs.  Ges.  der  Wiss.,  Vol.  XXVII.) 
Lick    oo.    Tucker's  catalogue   (1900)   from  reobservation  of  Piazzi-stars  south  of  the  equator. 

(L.  O.  Pub.,  Vol.  VI.) 
Miin  oo.    Oertel's  catalogue  for  1900  of  208  fundamental  stars,  observed  at  Munich,  —  Repsold 

micrometer.     (Ast.  Nach.,  3942-3943.) 
Cape   oo.    The  Cape  catalogues  for  1900,  including  the  catalogue  of  comparison-stars  in  the  zone, 

—40°  to  —52°.     (Advance  copy.) 
Cine    oo.     Porter's  catalogue  of  reobservation  of  Piazzi-stars  north  of  the  equator.    Cincinnati,  1900. 

As  a  rule,  observations  which  exist  only  in  the  form  of  annual  catalogues,  like 
the  Radcliffe  observations  following  Radcl  60,  the  Cambridge  observations  fol- 
lowing Camb  30,  and  some  others,  were  not  employed  in  the  present  computations. 
An  exception  to  this  practice  exists  in  the  case  of  declinations  of  the  principal 
standard  stars  contained  in  the  author's  former  work,  Declinations  of  500  Stars; 
for  these  the  authorities  therein  given  were  also  employed  as  they  had  been  pre- 
pared in  the  manuscript  of  that  work.  Nor  was  it  considered  advisable  to  make 
any  special  effort  to  secure  all  the  results  of  available  catalogues  which  may  now  be 
existing  in  manuscript  at  the  respective  observatories.  Yet  some  requests  for  such 
material  have  been  made  from  here  in  several  instances,  and  have  met  with  most 
generous  response,  as  indicated  in  the  following  list : 

Berl    oo.    Manuscript  catalogue  of  1300  stars  for  1890  from  Kustner's  meridian-observations  at 

Berlin,  sent  by  Professor  Kiistner.    This  catalogue  includes  the  results  published  in 

Ast.  Nach.,  Nos.  3392  and  3393. 
Melb    90.    Melbourne  General  Catalogue  of  3068  stars  for  1890,  manuscript  copy,  forwarded  by 

Director  Baracchi,  together  with  copies  of  many  annual  catalogues  of  stars  observed 

in  the  interests  of  the  astrographic  work. 


X  PRELIMINARY   GENERAL   CATALOGUE   OF   STARS   FOR    1900 

Bonn  oo.  Extensive  extracts  from  the  new  general  catalogue,  in  manuscript,  of  Kustner's  observa- 
tions at  Bonn,  +0°  to  +54°.  The  partial  catalogues  were  published  in  Nos.  4,  5, 
and  6  of  Veroffentlichen  der  Kon.  St.  zu  Bonn.  However,  when  these  extracts  were 
received  the  printer's  sheets  of  this  Catalogue  were  substantially  complete  as  to  the 
positions  and  motions  of  the  stars;  but  a  careful  comparison  of  P.G.C.-Bonn  oo  was 
made  and  the  results  will  be  found  in  the  table  of  systematic  corrections,  Appendix 
III. 

Cape  06.  Catalogue  of  1390  stars  of  which  1150  are  south  of  —36°,  in  manuscript,  from  Sir  David 
Gill,  Astronomer  Royal  at  the  Cape.  These  results,  derived  from  observations 
made  at  the  author's  request,  were  completed  within  one  year  from  beginning  of  the 
observations  and  communicated  to  the  Dudley  Observatory  within  a  few  weeks  after 
the  termination  of  the  observations.  There  were  in  general  three  observations  of 
each  star,  occasionally  more.  With  Cape  oo  they  constitute  a  complete  reobservation 
of  the  stars  in  this  Preliminary  General  Catalogue  south  of  —36°. 

Other  manuscript  contributions  and  advance  printers'  sheets  were  sent  to  the 
Dudley  Observatory  in  aid  of  these  computations  by  the  directors  of  the  Paris, 
Cape,  Edinburgh,  and  Greenwich  observatories,  and  by  Professor  Porter  of  the 
Cincinnati  observatory,  which  subsequently  were  superseded  by  the  published 
catalogues. 

The  later  epochs  of  this  Catalogue  have  been  also  strengthened  by  observations 
made  at  the  Dudley  Observatory  that  are  not  yet  published.  Every  star  of  the 
Catalogue  between  —21°  and  —37°  (as  well  as  some  others)  has  received  at  least 
two  observations  by  the  author  with  the  meridian-circle  of  the  Dudley  Observatory 
at  a  mean  date  of  about  1898.  Nearly  all  stars  of  this  Catalogue  between  +1° 
and  —  2°  were  observed  twice  near  the  epoch,  1900,  by  Mr.  Arthur  J.  Roy,  first 
assistant  of  the  Dudley  Observatory.  Between  700  and  800  of  the  stars  north  of 
—  20°  that  were  most  in  need  of  special  observation  were  observed  here  four  times, 
or  more,  in  the  years  1905-1906.  These  stars  may  often  be  recognized  by  the  large 
p.  e.  of  100  fi,  and  the  comparative  lateness  of  the  epoch.  They  are  mostly  between 
the  fifth  and  sixth  magnitudes. 

In  a  very  few  instances  of  stars  between  the  fifth  and  sixth  magnitudes  that  are 
extremely  deficient  in  earlier  observations,  the  Histoire  Ctleste  of  Lalande,  Rumker's 
catalogues  for  1836  and  1850,  Argelander's  observations  published  in  Vol.  VI  of 
Bonn  Observations,  and  some  other  authorities  of  comparatively  feeble  weight,  were 
included  in  the  computations,  with  rough  estimates  of  the  systematic  corrections 
and  weights. 


INTRODUCTION  XI 


THE  STANDARD  CATALOGUE. 

Primarily  the  standard  catalogue  contained  within  this  General  Catalogue  has 
been  prepared  for  use  in  this  investigation.  It  is  designed  to  serve  any  other  pur- 
pose where  high  precision  is  required.  In  the  present  investigation  the  standard 
catalogue  and  the  systematic  corrections  were  involved  together,  virtually  as  the 
solution  by  successive  approximations  of  equations  containing  a  large  number  of 
unknown  quantities.  The  problem  was  to  make  the  sums  of  squares  of  the  devia- 
tions of  the  several  component  star-catalogues  at  various  epochs  from  the  standard 
a  minimum.  The  effect  should  be,  that  when  a  catalogue  of  observation,  by  the 
application  of  systematic  corrections  to  it,  has  been  brought  into  close  general  con- 
formity to  the  standard,  it  represents  the  latter  at  that  epoch,  and  for  that  epoch 
extends  the  latter  to  stars  not  already  contained  in  the  standard.  To  a  certain 
extent,  the  catalogue  of  observation  so  treated  represents  systematically  the  ex- 
cellence and  weight  of  all  the  observations  concerned  in  the  construction  of  the 
standard.  To  what  extent  this  will  actually  be  the  case  will  depend  chiefly  upon 
two  conditions:  first,  upon  whether  the  standard  catalogue  has  been  made  to 
represent,  as  consistently  as  possible,  the  sum  total  of  observations  having  funda- 
mental value;  secondly,  upon  whether  the  relation  of  the  individual  catalogue  to 
this  standard  can  be  ascertained  with  the  required  accuracy.  The  latter  condition 
is  one  whose  importance  is  more  liable  to  be  overlooked.  If  the  weight  of  determi- 
nation for  the  individual  catalogue  to  be  compared  is  feeble,  or  the  number  of  pos- 
sible comparisons  with  the  standard  too  few,  then,  no  matter  what  the  precision  of 
the  standard  may  be,  the  resultant  effects  of  casual  error  in  the  individual  catalogue 
may  be  so  mixed  up  with  the  true  systematic  error  as  to  vitiate  the  result.  One  of 
the  distinctive  features  of  the  present  work  is  that  it  aims  to  minimize  this  difficulty 
by  furnishing  a  standard  catalogue  containing  a  very  unusually  large  number  of 
stars  to  represent  it.  The  best  determined  standards  alone  are  suitable  for  ascer- 
taining the  systematic  corrections  of  the  catalogues  of  superior  weight  —  say  those 
whose  computed  probable  errors  of  position  in  either  coordinate  is  not  more  than 
o"io  or  o'.'i2  at  the  epoch  of  comparison;  while  quite  one-half  of  the  stars  in  this 
General  Catalogue  are  standards  suitable  for  ascertaining  the  systematic  errors 
of  the  general  run  of  the  larger  catalogues  of  observation.  It  seems  scarcely  neces- 
sary to  remark  that  there  is  no  well-defined  line  of  distinction  between  standard 
stars  and  others.  What  may  be  considered  a  suitable  and  sufficient  standard  for 
one  purpose  may  not  do  at  all  for  another.  For  instance,  as  standards  in  differential 
observations  with  meridian  instruments  at  the  present  time  one  might  safely  decide 
that  where  the  probable  error  for  position  in  1910  is  given  as  ±"08,  or  less,  the 
star-place  is  sufficiently  accurate  for  the  most  refined  use.  Such  stars  might  be 
termed  primary  standards.  But  for  the  less  exacting  class  of  zone-observations, 
or  for  miscellaneous  observations,  it  may  be  considered  that  a  probable  error  of  the 
standard  for  1910  of  "12,  or  even  "15,  could  be  tolerated;  since  it  is  rarely  the 
case  that  the  probable  error  of  a  single  observation  would  not  be  at  least  twice  that 
amount. 


XII  PRELIMINARY   GENERAL   CATALOGUE   OF   STARS    FOR    1900 

An  account  of  the  methods  by  which  this  standard  catalogue  was  constructed, 
in  reasonable  conformity  with  the  foregoing  requirements,  is  contained  in  a  series 
of  papers  published  in  Vol.  XXIII  of  the  Astronomical  Journal.  (Subsequently 
collected  and  reprinted  under  the  title:  Catalogue  0/627  Principal  Standard  Stars.) 
The  successive  approximations  required  in  extending  the  number  of  stars  contained 
in  the  Standard  Catalogue,  the  estimate  of  value  of  each  catalogue  of  observation  as 
an  original,  or  independent,  source  of  determination,  and  the  devices  employed  in 
the  treatment  of  individual  catalogues  and  in  the  combination  of  one  with  another, 
are  there  set  forth,  probably  in  sufficient  detail  to  permit  the  formation  of  an  inde- 
pendent judgment  as  to  the  character  of  the  result.  In  much  the  same  way  the 
arrangement  in  chronological  order  of  the  systematic  corrections  of  Appendix  III 
(this  volume)  zone  by  zone  will  afford  a  rough  means  of  estimating  whether  the 
system  of  the  standard  sufficiently  well  represents  at  various  epochs  the  catalogues 
having  value  as  independent  sources  of  knowledge  as  to  star  positions. 

In  this  connection,  however,  it  should  be  noted  that  this  method  will  not  give 
reliable  information  as  to  an  effect  upon  the  stars  of  an  incorrectly  assumed  motion 
of  the  equinox.  This  requires  a  special  investigation.  In  the  present  work  the 
equinox  determined  in  1872  by  Professor  Newcomb  has  been  adopted.  (See :  On 
the  Right- Ascensions  of  the  Equatorial  Fundamental  Stars,  by  Simon  Newcomb, 
Washington  Observations,  1870.)  This  probably  requires  material  revision;  but 
any  such  revision  would  affect  all  the  proper-motions  in  right-ascension  by  a 
constant  quantity. 

Furthermore,  it  should  also  be  noted,  as  to  the  declinations,  that  pairs  of  con- 
temporaneous catalogues,  one  emanating  from  an  observatory  in  the  Northern  and 
the  other  from  an  observatory  in  the  Southern  hemisphere,  have  been  treated 
together  in  the  present  investigation  for  mutual  correction  of  their  results,  previously 
to  their  introduction  into  the  formation  of  the  Standard  Catalogue.  Such  pairs 
were  formed,  for  example,  from  Camb  30  and  Cape  33,  Grw  60  and  Cape  60,  Grw  64 
and  Melb  70,  and  from  many  others  suitable  to  the  purpose.  The  comparison  of 
the  members  of  these  pairs  gave  rise  to  equations  for  the  determination  of  correc- 
tions to  the  refractions  adopted  in  the  reduction  of  the  respective  catalogues.  It 
may  well  be  urged  that  no  series  of  determinations  of  star-declinations  can  be  criti- 
cally regarded  as  sufficiently  independent  that  rests  upon  a  system  of  refraction- 
corrections  determined  at  another  observatory,  for  another  horizon  and  for  another 
exposure  of  the  thermometer.  But  in  spite  of  certain  technical  objections,  it  can 
scarcely  be  contended  that  the  combination  of  contemporaneous  results  from  north- 
ern and  southern  observatories  in  pairs  (Ast.  Jour.,  540;  also  Declination  0/500 
Stars,  Boss)  in  the  manner  and  for  the  purpose  herein  indicated,  results  otherwise 
than  in  a  very  decided  increase  in  the  value  of  each  of  the  catalogues  as  sources  of 
absolute  determination  of  star-declinations. 

The  preparation  of  the  Catalogue  0/627  Principal  Standard  Stars  was  only  the 
foundation  structure  in  a  process  that  has  since  been  continued  and  elaborated. 
It  may  be  well  to  remark  here,  that  the  utmost  circumspection  was  required  during 
these  successive  enlargements  of  the  Standard  Catalogue  that,  in  the  positions  of  the 
stars  successively  added  to  it  as  secondary  standards,  the  original  system  should  be 


INTRODUCTION  XIII 

preserved.  In  other  words,  the  systematic  correction  of  a  catalogue  of  observation 
compared  with  the  corrected  catalogue  of  627  standard  stars  should  result  the  same 
as  it  does  from  comparison  with  the  additional  standard  stars,  within  admissible 
limits  of  casual  error. 

/ 

MAGNITUDE-EQUATION. 

Another  special  point  in  relation  to  this  standard  catalogue,  as  well  as  to  the 
catalogue  in  general,  may  appropriately  be  mentioned  here,  since  it  constitutes  a 
departure  from  the  practice  that  has  heretofore  prevailed.  An  attempt  has  been 
made  to  produce  published  right-ascensions  that  shall  be  free  from  the  effect  of 
magnitude-equation.  The  magnitude-equation  is  a  well-established  effect  in  conse- 
quence of  which  the  observer  at  the  telescope  ordinarily  registers  the  transit  of  a 
faint  star  later  than  he  would  that  of  a  brighter  star  actually  in  the  same  place. 
The  equations  of  the  different  observers  are  by  no  means  the  same,  and  there  appear 
to  be  a  very  few  whose  magnitude-equations  are  very  near  zero.  The  general  aver- 
age of  all  equations  appears  to  be  not  far  from  ^007  per  magnitude  on  the  historic 
scale  (log.  light  ratio  .36),  or  ?oo8  on  the  Pogson  scale  (log.  ratio,  .4).  Furthermore 
it  appears  that  the  equation  for  observations  by  chronographic  registry  is  not 
very  different  from  that  for  observations  by  eye-and-ear.  (Ast.  Jour.,  536.)  From 
this  it  would  appear  that  determinations  of  proper-motion  in  right-ascension  would 
not  be  very  sensibly  affected  by  the  neglect  of  correction  for  this  equation  in  the 
past  and  present ;  but  that  the  right-ascensions  of  the  fainter  stars  would  generally 
come  out  too  large  relatively  to  those  of  the  brighter  stars,  and  in  a  different 
degree  for  different  observers.  For  the  purposes  of  a  standard  catalogue  this  is  a 
matter  of  some  importance,  since  stars  of  different  magnitudes,  in  the  case  of  many 
observers  having  equations  different  from  the  average,  would  give  systematically 
different  clock  corrections. 

Since  the  published  discussion  of  this  effect  (A.  J.,  536)  the  investigation  of  the 
magnitude-equations  and  the  corresponding  corrections  required  to  eliminate  this 
effect  from  the  individual  catalogues  of  observation  has  been  continued  here  more 
critically  and  upon  an  enlarged  scale.  The  essential  outcome  has  been  substantial 
confirmation  of  the  earlier  results,  as  will  be  seen  by  consulting  the  tables  of  Aay  in 
Appendix  III. 

The  magnitude-equation  of  the  Catalogue  0/627  Principal  Standard  Stars  was 
found  to  be  —  ?oo77^Mf  —  3.5),  where  M  represents  the  magnitude  of  a  given  star  on 
the  Pogson  scale  (A.  /.,  536).  This  is  equivalent  to  —  ?oo6g  (M  —  3.5)  on  the  mag- 
nitude-scale of  this  Preliminary  General  Catalogue,  the  magnitudes  for  which,  when 
brighter  than  6"6,  are  taken  from  a  manuscript  catalogue  of  normal  magnitudes 
prepared  by  Dr.  S.  C.  Chandler,  based  upon  a  combination  of  substantially  all  useful 
material  contained  in  the  various  uranometries  and  photometric  determinations, 
adjusted  to  the  historic  scale.  Accordingly  the  right-ascensions  of  the  Catalogue 
0/627  Principal  Standard  Stars,  in  addition  to  other  revisions  for  many  of  the  stars, 
were  corrected  by  —  ?oo69  (M  —  3.5)  (where  M  was  adopted  from  the  present  work) 
and  were  then  transferred  to  this  Catalogue.  For  all  stars  not  included  in  that 


XIV 


PRELIMINARY   GENERAL   CATALOGUE   OF   STARS    FOR    1 900 


list,  the  corrections  Aaa  for  magnitude-equation  were  applied  to  the  individual 
catalogues  of  observations  and  treated  like  any  other  form  of  systematic  correction. 
The  resulting  right-ascensions  as  printed  in  the  Catalogue  are  supposed  to  be  free 
from  this  effect. 

The  magnitude,  3^5,  was  chosen  as  the  zero  of  reference,  so  that  the  mean 
equinox  of  the  right-ascensions  would  not  be  sensibly  disturbed. 

Since  the  basis  of  these  determinations  was  laid  (A.J.,  536),  it  has  been  possible 
to  apply  several  further  independent  tests  of  considerable  value  in  estimating  the 
freedom  of  this  catalogue  from  errors  dependent  on  magnitude  of  the  star.  Tucker's 
determination  of  his  magnitude-equation  for  the  right-ascensions  of  the  Piazzi- 
stars  affords  one  such  test;  OertePs  determination  of  right-ascensions  with  the 
Repsold  micrometer  at  Munich  (Miin  oo)  presents  another;  and  Ktistner's  right- 
ascensions  at  Bonn  (Bonn  oo  in  Manuscript)  offer  still  another.  Arranging  the 
comparisons  in  the  order  of  magnitude  there  was  obtained  for  the  respective  cata- 
logues, in  the  sense  P.G.C.-  Miin  oo,  etc. : 


MUNICH  1900. 

LICK  1900. 

BONN  1000. 

M 

No.  of  Stars. 

Obsd.  Aau 

M 

No.  of  Stars. 

Obsd.  Aay 

M 

No.  of  Stars. 

Obsd.  AaN 

8 

8 

8 

o-5 

6 

+  .009 

2.2 

21 

.OOO 

a.o 

19 

.OOO 

3-3 

IOI 

.000 

4-S 

i°3 

-.003 

3-° 

35 

—  .001 

4.3 

104 

—  .OO2 

5-* 

224 

+  .003 

4.0 

73 

—  .001 

5-i 

191 

—  .OO2 

6.0 

260 

+  .001 

5-° 

47 

+  .001 

6.1 

3" 

+  .002 

6.8 

64 

—  .002 

5-9 

26 

—  .001 

6-9 

89 

.OOO 

The  observed  quantities  under  Aa.  in  all  these  series  appear  to  be  quite  insig- 
nificant. More  testimony  of  the  same  kind  has  been  derived  from  the  recent  right- 
ascensions  of  Albany  and  the  Cape,  where  the  respective  observers  applied  their 
respective  magnitude-equations  in  the  reductions. 

Several  courses  are  open  to  observers  who  may  wish  to  use  this  standard  cata- 
logue in  observation  of  right-ascension,  (i)  Observers  can  use  a  self-registering 
micrometer.  (2)  They  can  determine  their  own  magnitude-equations  during  the 
progress  of  their  observations  and  free  their  transits  from  the  effect  of  the  equation. 
(3)  They  can  assume  their  equations  to  be  —  ?oo69  (M  —  3.5),  the  mean  of  all  observ- 
ers. In  these  cases  the  right-ascensions  of  the  present  Catalogue  are  ready  for 
use  as  standards.  If  no  attention  is  given  to  the  magnitude-equation,  instead  of 
correcting  the  transits  for  mean  equation,  we  can  evidently  correct  the  present 
Catalogue  by  +  ?oo69  (1^  —  3.5)  in  order  to  make  it  systematically  conform,  in  an 
approximate  way,  with  standard  catalogues  heretofore  in  use  that  are  uncorrected 
for  magnitude-equation. 

SELECTION  AND  IMPROVEMENT  OF  STANDARDS. 

The  Catalogue  gives  for  each  star,  both  in  right-ascension  and  declination,  the 
weighted  mean  epoch  of  observation  from  combinations  of  all  catalogues ;  the  prob- 
able error  of  the  coordinate  at  this  mean  epoch ;  the  probable  error  of  the  centennial 
motion;  and,  finally,  as  a  matter  of  convenience  and  check,  the  probable  error  of 


INTRODUCTION  XV 

the  coordinate  when  reduced  to  1910.  From  inspection  of  this  information  one 
may  determine  what  stars  are  best  suited  for  use  as  standard  stars,  when  both 
elements  of  qualification  for  standard  stars  are  considered.  The  precision  of  the 
position  at  a  given  epoch  is  compounded  of  the  precision  at  the  principal,  or  mean, 
epoch  with  that  of  the  proper-motion.  If  we  construct  a  standard  catalogue  that 
is  designed  to  remain  in  efficient  use  until  1920  (say),  then  its  predicted  probable 
errors  during  its  period  of  use  up  to  1920  are  of  even  greater  interest  at  the  later 
than  for  the  earlier  dates.  The  data  given  in  the  present  Catalogue  provide  for  the 
computation  of  a  predicted  probable  error  of  position  for  any  required  epoch ;  and 
whenever  the  resulting  probable  error  is  not  much  over  o'.'3,  this  prediction  as  to 
precision  should  be  relatively  a  fair  approximation  to  the  truth. 

This  information,  however,  may  frequently  be  required  in  relation  to  stars  which 
would  not  now  be  regarded  as  well  enough  determined  to  be  employed  as  standard 
stars  in  zone  or  regional  observations  at  fixed  observatories,  but  which  might  be 
made  into  useful  secondary  standards  through  special  differential  observations 
based  upon  the  principal  standards,  and  contemporaneously  with  the  zone-observa- 
tions themselves.  This  method  has  been  advantageously  employed  at  the  Dudley 
Observatory  (1896-1901,  A.  /.,  499).  The  data  of  the  present  Catalogue  would 
facilitate  the  selection  of  such  standards  in  such  a  manner  that  the  new  secondaries 
might  be  chosen  in  view  of  their  future  as  well  as  present  usefulness.  Not  only  is 
the  selection  of  such  stars  herein  facilitated,  but  the  preparation  of  accurately  pre- 
dicted positions  for  them  is  made  comparatively  easy.  The  results  contained  in  the 
present  Catalogue  are  supposed  to  be  exhaustive  of  existing  determinations  to  the 
extent  indicated  in  the  foregoing  list  of  catalogues  employed.  Additional  weight  of 
observations,  not  contained  in  that  list,  can  easily  be  incorporated  with  the  catalogue- 
data  in  such  a  manner  (as  will  be  explained  hereafter)  that  the  final  results  will 
virtually  represent  a  complete  solution  of  all  the  observational  equations  that  were 
formed  in  the  present  work,  together  with  those  from  the  additional  material. 
Thus  the  work  here  done,  if  considered  satisfactory,  need  not  be  duplicated  except 
in  special  cases. 

As  another  illustration  of  the  value  which  an  approximate  knowledge  of  the 
degree  of  precision  reached  may  have,  take  the  selection  of  stars  for  determination  of 
latitude.  In  the  Catalogue  the  probable  errors  in  declination  are  given  for  1910; 
and  they  can  easily  be  computed  for  other  dates.  This  is  of  very  great  advantage 
in  facilitating  choice  of  the  best  determined  stars.  Furthermore,  considering  the 
great  precision  of  instrumental  results  in  latitude-observation,  the  precision  of 
the  final  result  of  a  series  of  latitude-observations  may  depend  more  upon  the 
precision  of  the  star-places  than  upon  that  of  the  instrument.  The  present  Cata- 
logue furnishes  fairly  reliable  estimates  of  probable  error  for  each  declination, 
enabling  this  element  to  be  taken  into  account  in  latitude-reductions  in  order  to 
reach  the  most  probable  result.  At  the  same  time  the  results  of  later  observations 
of  such  latitude-stars  can  be  easily  and  accurately  incorporated  in  a  revision  of  the 
determinations  recorded  in  the  present  work,  as  will  be  shown  later  on.  It  should 
be  specially  noted  that  for  stars  of  the  class  represented  by  the  weaker  one-third  of 
the  present  Catalogue,  the  probable  error  of  the  predicted  position  increases  much 


XVI 


PRELIMINARY   GENERAL   CATALOGUE   OF   STARS    FOR    IQOO 


more  rapidly  with  the  time  than  for  the  standard  stars.  For  instance,  there  is  a 
large  number  of  stars  whose  right  ascensions  or  declinations  have  the  greatest 
weight  somewhere  between  1880  and  1890,  or  later,  with  probable  error  of  cen- 
tennial motion,  o"6,  or  more.  The  manner  in  which  the  probable  error  increases  for 
this  class  of  stars  can  best  be  illustrated  by  an  example.  For  this  purpose  take 
No.  26  of  the  Catalogue,  for  which  the  probable  error  at  the  epoch  1888.3  is  ±  '^S 
and  of  the  centennial  proper-motion  is  ±  i"o6.  The  following  table  gives  computed 
probable-errors  and  weights  (unit  of  weight  corresponds  to  p.e.,  ±  "3)  for  the 
respective  epochs. 


STAR  No.  26  IN  DECLINATION. 

Year. 

p.e. 

Weight. 

1888.3 

±    '.'13 

5-3 

1900 

±    .18 

2.8 

1910 

±    .  26 

1-3 

IP'S 

±    -31 

0.9 

1920 

±    .36 

0.7 

Thus  a  weight  of  determination  that  was  5.3  in  1888  has  fallen  to  one-fourth 
of  this  amount  in  1910.  That  is  below  the  weight  of  the  mean  of  two  observations 
in  the  more  precise  of  modern  catalogues  of  observation.  This  rapid  diminution 
of  weight  seems  worthy  of  mention  here,  because  its  existence  often  appears  not  to 
be  specifically  and  properly  appreciated  even  in  works  aiming  at  precision. 


RECAPITULATION. 

Before  entering  into  detail  in  reference  to  the  proper  understanding  and  use  of 
the  present  Catalogue  we  may  venture  to  recapitulate  the  statement  of  its  principal 
characteristics  as  follows: 

1.  The  primary  object  of  the  Catalogue  is  to  give  the  proper-motions  of  the  stars  as  they 

result  from  a  precise  discussion  of  all  readily  available  observations  in  each  case. 

2.  It  aims,  also,  to  furnish  a  Standard  Catalogue  that  shall  be  practically  exhaustive  of  the 

material  of  observation  both  in  extent  and  in  thoroughness  of  discussion,  and 
which  shall  include  all  stars  likely  to  be  needed  at  present  for  standards  in  zone- 
observations  and  the  like. 

3.  It  gives  the  right-ascensions  of  the  stars  substantially  free  from  the  error  arising  from 

magnitude-equation. 

4.  It  furnishes  with  each  star  the  means  for  a  complete  estimate  of  the  probable  accuracy 

attained  in  respect  to  the  catalogue  position  and  motion  of  that  star. 

5.  As  has  been  intimated,  and  as  will  later  be  shown  more  specifically,  the  catalogue-data 

offer  convenient  means  for  incorporating  with  due  weight,  for  purposes  of  revision, 
observations  additional  to  those  on  which  the  catalogue  results  are  based. 


INTRODUCTION  XVH 


THE  COLUMNS  OF  THE  CATALOGUE. 

In  order  to  facilitate  a  proper  and  intelligent  use  of  the  Catalogue  let  it  now  be 
considered  systematically  in  detail. 

The  first  column  on  each  page  gives  the  current  number  for  reference.  There  are 
6188  numbers  in  all. 

ADOPTED  NAMES. 

The  second  column  on  the  left-hand  pages  contains  the  adopted  names  or  desig- 
nations of  the  respective  stars.  This  Catalogue  makes  no  claim  to  erudition,  or 
authority,  in  this  respect.  At  the  outset  it  was  decided  that  the  time  and  labor 
required  for  a  critical  and  consistent  treatment  of  the  constellations  could  not  be 
afforded.  Except  for  a  few  of  the  brighter  stars,  there  appears  to  be  no  single 
authority  or  rule  of  procedure  in  this  respect  that  is  so  generally  accepted  as  prac- 
tically to  require  obedience.  The  practice  of  meridian -observers,  and  of  others  who 
have  occasion  to  make  use  of  star-names,  seems  to  make  this  clear.  Therefore,  in 
devising  nomenclature  for  the  stars  of  this  Catalogue  the  author  has  felt  himself 
absolved  from  any  attempt  to  found  a  system  capable  of  defense  on  historic  grounds ; 
but  he  has  felt  free  to  adopt  that  which  seemed  to  him  most  convenient,  fitting,  and 
simple  for  his  purpose.  Yet  certain  quasi-general  principles  were  kept  in  mind  by 
the  author  in  selecting  precise  designations  for  the  individual  stars. 

It  was  decided,  very  naturally,  where  a  star  is  brighter  than  6"o  and  has  a 
virtually  undisputed  claim  to  a  Greek  letter,  unmodified  by  accent  or  subscript, 
that  this  should  be  adopted.  In  case  of  some  stars  where  this  qualification  could 
not  be  asserted  the  Greek  letter  has  still  been  retained.  Of  faint  stars,  the  names 
X  Ursae  Minoris  and  o  Octantis  are  retained,  since  many  meridian-observers  must 
have  become  well  accustomed  to  the  designations.  On  the  other  hand,  neither  the 
name,  "y  Antliae,"  sometimes  employed  for  No.  2764  of  this  Catalogue,  that  is  of 
7^3  only,  nor  the  name  "£  Piscis  Australis"  for  No.  5802,  a  star  of  6^8,  seems  to 
serve  any  useful  purpose.  If  the  adoption  of  a  Greek  letter  is  to  be  regarded  as 
a  distinguishing  mark  of  brightness,  such  designations  of  Greek  letters  for  faint 
stars  tend  to  mislead  and  confuse,  since  the  great  majority  of  stars  fainter  than 
5^0  and  even  such  stars  as  L  3910,  2^8,  and  Br  3062,  $8,  are  not  designated  by 
Greek  letters. 

The  practice  of  assigning  the  same  Greek  letter  to  several  stars  of  a  constellation, 
relying  on  added  accents  or  subscripts  to  distinguish  the  separate  stars,  does  not 
seem  very  convenient  and  has  been  carried  rather  far  in  some  instances.  Thus 
the  Greek  letter  T  is  attached  to  nine  bright  stars  in  Eridanus,  the  letter  ^  ten 
times  in  Auriga ;  and  there  are  many  instances  where  the  same  letter  is  employed 
more  than  twice  to  designate  stars  in  a  given  constellation.  There  already  exists 
a  tendency  in  such  instances  to  discard  the  subscripts  or  accents  and  to  reserve 
the  use  of  the  letter  to  the  brighter  star,  especially  if  this  is  decidedly  above  the  sixth 
magnitude.  This  tendency  has  been  obeyed  in  the  present  work,  where  precedents 


XVTII  PRELIMINARY   GENERAL  CATALOGUE  OF   STARS   FOR   IQOO 

exist,  and  several  changes  have  been  here  independently  made.  Thus  we  have 
£'  and  f 2  Ceti ;  in  the  present  work  £'  has  been  discarded  and  the  exponent  taken 
from  £2,  even  though  the  difference  of  magnitude  is  small.  There  are  several  other 
instances  of  the  same  kind.  These  subscripts  or  exponents  have  sometimes  been 
retained  in  the  cases  where  the  two  stars  may  be  regarded  as  constituting  a  close 
naked-eye  double,  as  Nos.  1045-1046,  0l  and  02  Tauri  (dist.  6'). 

As  a  rule  the  practice  of  employing  the  numbers  of  Flamsteed,  Hevelius,  Bode,  or 
Gould  with  the  name  of  the  constellation  as  a  designation  has  not  been  followed  in 
working  up  the  second  column  of  the  Catalogue.  There  are  numerous  cases  where 
the  Flamsteed  numbers  have  been  misapplied ;  there  is  no  uniformity  in  assigning 
the  exact  boundaries  of  the  constellations;  and  in  the  use  of  the  letters  B,  H,  and 
F  we  have  a  fruitful  source  of  inconsistencies  and  errors,  especially  in  view  of  the 
nearly  universal  practice  of  omitting  the  letter  "  F  "  to  indicate  that  the  number  is 
Flamsteed's.  The  letters  "B"  for  Bode  and  "H"  for  Hevelius  have  often  been 
dropped.  It  was  decided  to  get  rid  of  the  critical  labor  involved  in  unprofitable 
research  upon  these  names  by  discarding  them  altogether.  Yet,  in  a  few  instances, 
such  familiar  designations  as  70  Ophiuchi,  61  Cygni,  and  51  H  Cephei,  have  been 
retained ;  and  in  the  column  of  remarks  the  Flamsteed  and  Gould  numbers  with 
constellation  names  (mainly  quoted  from  the  catalogue  of  the  British  Association) 
are  given  as  convenient  synonyms.  The  use  of  the  Roman  alphabet  with  constel- 
lation names,  except  for  naming  variable  stars,  seems  to  be  open  to  very  serious 
objections.  Such  letters  are  sometimes  given  in  the  column  of  remarks,  but  are 
excluded  from  the  second  column.  The  similarity  of  such  letters  as  a  and  a,  i 
and  i,  K  and  x,  o  and  0,  v  and  v,  CD  and  w,  either  in  manuscript  or  print,  has 
been  the  source  of  much  confusion  and  of  what  should  have  been  unnecessary 
labor. 

Whatever  have  been  the  faults  of  naming  the  northern  stars,  the  case  is  far  worse 
for  the  southern  sky.  Here  it  has  been  decided  to  cut  loose  from  all  traditions  and 
to  follow  the  constellations  and  Greek  letters  as  they  were  given  by  Gould  in  the 
Uranometria  Argentina,  with  modifications  as  to  the  employment  of  letters  with 
exponents  similar  to  those  adopted  for  northern  stars.  Roughly,  this  practice  takes 
effect  at  about  —23°  of  declination,  and  near  that  parallel  inconsistencies  are  neces- 
sarily introduced  that  are  not,  however,  regarded  as  of  any  particular  moment. 
In  the  column  of  remarks  the  Gould  numbers  and  constellations  have  usually  been 
given  for  the  far  southern  stars. 

The  simplest  mode  of  designation  (and  in  many  respects  the  most  natural  for  a 
catalogue  like  this)  is  to  give,  in  abbreviated  form,  the  name  of  and  number  in 
some  well-known  star-catalogue  in  which  the  earliest  observations  of  precision  upon 
that  star  are  found.  Thus,  "Br  3208"  (Bradley),  given  as  a  designation  for  the 
first  star  in  this  Catalogue,  is  specific  and  probably  more  convenient  as  a  means  of 
identification  than  would  be  "33  Piscium,"  by  which  this  star  is  often  designated. 
Lacaille's  zone-observations  at  the  Cape  of  Good  Hope  constitute  a  nearly  complete 
survey  of  the  brighter  stars  of  the  southern  sky.  Comparatively  few  stars  brighter 
than  7*0  have  been  omitted.  These  numbers  have  been  very  extensively  quoted  in 
star-catalogues.  Therefore,  although  the  catalogue  of  Lacaille's  observations  is 


INTRODUCTION  XIX 

very  far  from  being  a  catalogue  of  precision,  it  does  offer  a  convenient  means  for 
applying  a  designation  for  the  great  majority  of  southern  stars.  Piazzi  and  Groom- 
bridge  with  numbers  are  also  convenient  designations.  Failing  all  these  which 
have  been  enumerated  in  the  foregoing,  the  practice  has  been  to  employ  the  number 
in  an  early  catalogue,  avoiding  those  in  which  there  are  few  stars.  If  the  star  occurs 
in  no  catalogue  of  precision  earlier  than  about  1875,  the  number  in  Lalande's  or 
Bessel's  zones,  and  occasionally  from  other  sources,  has  been  employed.  When, 
as  in  the  case  of  Piazzi  and  Lacaille,  both  numbers  exist  for  the  same  star,  the  Piazzi 
number  is  preferred  for  stars  north  of  —  30°  and  the  Lacaille  number  for  those 
south  of  that  parallel.  It  would  be  tedious,  however,  to  enumerate  all  the  details 
that  have  governed  in  the  choice  of  names  for  stars  not  frequently  observed. 

To  the  name  in  the  second  column  is  sometimes  appended  a  letter.  When  m 
is  thus  appended,  it  usually  means  a  double  star  observed  in  the  mass ;  but  where 
the  star  is  wide  and  the  components  distinct,  or  where  the  components  are  of  nearly 
equal  brightness,  m  more  commonly  indicates  the  mean.  Usually,  the  notes  give 
an  indication  as  to  what  is  probably  meant.  For  a  great  proportion  of  close  double 
stars,  for  which  the  difference  of  magnitude  between  the  two  components  is  less 
than  3"  (say),  it  is  rather  difficult  to  determine  to  what  point  the  observation 
refers. 

For  several  binaries  an  attempt  has  been  made  to  determine  the  relative  masses 
of  the  components.  In  such  cases  the  letters  c.  g.  (center  of  gravity)  are  appended 
to  the  name  in  the  second  column ;  the  catalogue-position  is  intended  to  be  that  of 
the  center  of  gravity.  Particulars  relative  to  such  stars  are  to  be  found  in  special 
notes  contained  in  Appendix  II. 

MAGNITUDE  OF  THE  STARS. 

The  third  column  on  each  left-hand  page  contains  the  estimated  magnitude  of 
the  star.  For  all  stars  indicated  as  of  6"5  or  brighter  (with  trifling  exceptions),  the 
magnitudes  are  taken  from  a  manuscript  catalogue  furnished  by  Dr.  S.  C.  Chandler. 
When  approached  for  advice  in  the  matter  of  star-magnitudes,  Dr.  Chandler  very 
generously  offered  to  place  at  the  disposition  of  the  author  the  results  derivable 
from  his  extensive  manuscripts  relating  to  the  magnitudes  of  the  brighter  stars. 
This  was  followed  with  catalogues  containing  magnitudes  of  all  stars  in  either 
hemisphere  deemed  by  Dr.  Chandler  to  be  6^5,  or  brighter.  These  were  based  upon 
the  collation  of  the  results  from  all  the  principal  uranometries  and  photometric 
results.  Furthermore,  the  "historic"  or  "natural"  scale  (approximately  that  of  the 
Uranometria  Nova  of  Argelander)  had  been  adopted  for  the  normal;  and  the 
systematic  corrections  necessary  to  reduce  the  Uranometria  Argentina  and  various 
photometries  to  a  normal  had  also  been  ascertained.  Through  the  photometric 
observations  the  normal  scale  had  been  fixed  at  the  light  ratio  whose  logarithm  is 
OT^6.  One  of  the  essential  features  of  the  historic  scale  is  the  magnitude  6^0,  which 
in  the  course  of  generations,  and  through  the  data  collected  in  successive  uranome- 
tries, had  come  to  be  quite  a  definite  thing.  In  establishing  the  gradation  above  and 
below  this  datum  (near  Potsdam  6"o)  Dr.  Chandler  appears  to  have  aimed  to  keep 


XX 


PRELIMINARY   GENERAL  CATALOGUE  OF   STARS   FOR   IQOO 


in  touch  with  the  scale  of  the  Uranometria  Nova  and  Banner  Durchmusterung  with 
some  reference  to  the  historic  glfo,  which  through  the  estimates  of  Bessel,  Argelander, 
and  others  had  also  come  to  have  a  fairly  definite  (though  not  absolutely  rigorous) 
meaning  to  the  great  body  of  astronomers. 

It  is  to  be  hoped  that  Dr.  Chandler,  at  some  future  time,  will  give  an  exposition 
of  the  methods  by  which  he  has  reached  results  of  such  great  importance  and  value. 
Meanwhile,  in  view  of  the  most  liberal  and  generous  authorization  of  Dr.  Chandler, 
his  normal  system  may  best  be  defined  here  through  some  of  his  tables  of  systematic 
corrections.  The  logarithm  of  the  ratio  of  brightness  for  one  magnitude  in  Chan- 
dler's Normal  Uranometry  is  stated  by  him  to  be  .36,  differing  from  Pogson's  scale 
(log.  ratio  =  .4)  now  in  extensive  use.  As  will  appear,  Chandler's  system  is  nearly 
equivalent  to  the  Potsdam  system  for  "GW"  (yellowish  white)  stars  plus  .08  (M 
—  6lfo),  where  M  indicates  the  normal  magnitude  of  a  given  star.  It  will  be  noted 
that  Dr.  Chandler  deduces  decided  systematic  corrections  on  account  of  color. 


ADOPTED  CORRECTIONS  TO  POTSDAM  PHOTOMETRY. 

ADOPTED  CORRECTIONS  TO  HARVARD  PHOTOMETRY. 

(Argument  is  corrected  or  normal  magnitude.) 

(Vols.  XLIV  and  XLV  and  approximately  so  for  others.) 

Normal. 

W 

GW 

WG 

G 

RG 

Normal. 

W 

GW 

WG 

G 

RG 

M 

M 

M 

M 

M 

M 

M 

M 

M 

M 

M 

M 

2.O 

-.46 

-•43 

-•39 

-•35 

-•37 

2.0 

-•*s 

-.18 

—  •23 

-.27 

-.27 

3-° 

-•33 

—  .29 

—  .24 

—  .19 

-.18 

3-° 

-.06 

-.09 

-.14 

-.18 

-.18 

4.0 

—  .22 

-.18 

—  .11 

-•<* 

—  .02 

4-° 

+  .05 

+  .02 

-•03 

-.07 

-.07 

5-° 

-•'3 

-.08 

.00 

+  .07 

+  .12 

5-° 

+  .17 

+  .14 

+  .09 

+  .0S 

+  .05 

6.0 

-.07 

—  .02 

+  .08 

+  .16 

+  •'3 

6.0 

+  •31 

+  .28 

+  .23 

+  .19 

+  .19 

7.0 

-•°3 

+  .02 

+  •13 

+  •23 

+  •32 

7.0 

+  .42 

+  •39 

+  .34 

+  •31 

+  .30 

The  arguments  for  color,  "  W,"  "GW,"  etc.,  have  the  meanings  attached  to  them 
in  the  Potsdam  Photometry:  white,  yellowish  white,  whitish  yellow,  yellow,  and 
reddish  yellow,  respectively. 

For  those  of  the  Harvard  series  published  in  Volumes  XIV,  XXIV,  XXXIV,  and 
XL VI,  Dr.  Chandler  deduces  corrections  periodic  with  right-ascension  additional 
to  the  corrections  for  scale  already  given  for  Volumes  XLIV  and  XLV. 

SPECIAL  CORRECTIONS  APPLICABLE  TO  HARVARD  PHOTOMETRY. 


RA 

Vol.  XIV 

XXIV 

XXXIV 

XL  VI 

RA 

Vol.  XIV 

XXIV 

XXXIV 

XLVI 

h 

M 

M 

M 

M 

h 

M 

M 

M 

M 

o 

—  .02 

-.08 

+  .06 

-.07 

12 

—  .OI 

+  .01 

-.O? 

-.09 

I 

—  .OI 

-.09 

+  .08 

-.07 

13 

—  .04 

—  .01 

-.07 

-.09 

2 

+  .01 

-.08 

+  .08 

-.06 

14 

-.06 

—  .02 

-  .06 

-.09 

3 

+  .02 

-.07 

+  .06 

-•°S 

iS 

-.06 

—  .04 

-.07 

—  .11 

4 

+  .04 

-•°S 

+  .02 

-  .04 

16 

-.06 

-.05 

-.07 

-•'3 

S 

+  .°S 

-.04 

—  .02 

-•°3 

17 

-.06 

-.06 

-.08 

-.14 

6 

+  .06 

—  .02 

-.07 

+  .04 

18 

-.06 

-.06 

-.08 

-.16 

7 

+  .06 

.OO 

-.09 

-.06 

19 

-.06 

—  .04 

-.07 

—  .14 

8 

+  .06 

+  .02 

—  .10 

-.09 

20 

-•°S 

—  .04 

-.06 

—  .12 

9 

+  .05 

+  .02 

-.09 

—  .11 

21 

-•05 

—  .04 

-•OS 

—  .11 

10 

+  .04 

+  .03 

-.09 

—  .12 

22 

—  .04 

-.05 

—  .03 

-.09 

ii 

+  .02 

+  .02 

-.08 

—  .11 

23 

-•03 

-.07 

+  .01 

-.08 
* 

INTRODUCTION 


XXI 


The  following  are  abridged  Tables  of  Corrections  for  the  Uranometria  Argen- 
tina. The  total  correction  to  be  applied  to  the  magnitudes  of  U.A.  is  for  "scale"  + 
"locality  in  sky." 

U.A.  CORRECTION  FOR  SCALE. 


NORMAL. 

CORRECTION. 

NORMAL. 

CORRECTION. 

M 

M 

M 

M 

2.O 

-.17 

4-S 

-.08 

2-5 

-.07 

5-° 

—  .20 

3-° 

—  .02 

5-5 

-.18 

3-5 

+  .01 

6.0 

-.09 

4.0 

.OO 

6-5 

+  .01 

7.0 

+  .08 

U.A.  CORRECTIONS  FOR  LOCALITY  m  SKY. 


~\RA 
*_\ 

oh 

,» 

4" 

6h 

81- 

ioh 

I2h 

Mh 

!6h 

18" 

,o" 

«h 

M 

M 

M 

M 

M 

M 

M 

M 

M 

M 

M 

M 

0° 

+  .2 

+  .2 

+  .1 

—  . 

—  .1 

O 

+  .1 

O 

— 

0 

O 

+  .1 

—  10 

+  .2 

+  •3 

+  .1 

— 

—  .1 

0 

+  .1 

0 

— 

O 

O 

+  .2 

—  20 

+  .2 

+  •3 

+  .2 

— 

—  .2 

O 

+  .1 

O 

— 

0 

0 

+  .2 

-3° 

+  .2 

+  •3 

+  .2 

— 

-•3 

O 

0 

—  .1 

— 

—  .1 

0 

+  .2 

-40 

+  .2 

+  .2 

+  .1 

— 

--3 

—  .1 

—  .1 

—  .2 

— 

—  .1 

0 

+  .2 

-50 

+  .2 

+  .2 

+  .1 

— 

—  .2 

—  .2 

—  .2 

—  .2 

— 

—  .1 

O 

+  .2 

-60 

+  .2 

+  .2 

O 

— 

—  .2 

—  .2 

-•3 

—  .2 

— 

—  .1 

0 

+  .1 

-  70 

+  .1 

+  .1 

+  .1 

O 

—  .1 

-•3 

-•3 

—  .2 

— 

0 

O 

+  .1 

-80 

O 

+  .1 

+  .1 

+  .1 

—  .1 

—  .2 

—  .2 

—  .2 

— 

0 

0 

0 

As  already  stated,  Chandler's  manuscript  catalogue  furnishes  the  magnitudes 
to  6^5  inclusive.  For  the  fainter  stars  as  many  as  possible  were  computed  at  the 
Dudley  Observatory  with  the  aid  of  the  foregoing  tables  of  systematic  correction. 
During  this  process  the  generally  excellent  agreement  of  the  Harvard  and  Potsdam 
corrected  results  attracted  marked  attention.  Down  to  the  limit  of  the  tables,  7^0, 
the  systematic  corrections  appear  to  produce  very  satisfactory  agreement  between 
the  Harvard  and  Potsdam  results.  Below  this  limit  the  corrections  were  roughly 
extrapolated  for  Potsdam  and  were  assumed  to  remain  unchanged  from  7*0  for 
Harvard.  For  a  large  part  of  the  stars  in  this  Catalogue  noted  as  fainter  than  7  "o, 
the  magnitudes  depend  upon  rather  uncertain  eye-estimates,  such  as  those  con- 
tained in  the  Durchmusterungs  and  in  certain  catalogues  of  meridian-observation 
for  which  estimates  of  magnitude  are  made  with  some  care.  These  magnitudes  are 
of  course  subject  to  errors  very  much  exceeding  those  attributable  to  the  magnitudes 
based  upon  Harvard  and  Potsdam  photometries. 

In  the  case  of  double  stars  the  differences  of  magnitudes  of  the  components  were 
mostly  adopted  from  the  Mensura  Micrometrica  of  Struve  or  from  the  photometric 
measures  of  the  Harvard  Observatory  (H.C.O.  Annals,  Vol.  XI).  However,  this 
part  of  the  work  can  lay  no  claim  to  critical  exactness. 

It  may  not  be  superfluous  to  note  again  that  a  magnitude-equation  determined 
in  strict  conformity  with  the  Pogson  scale  (log.  light  ratio,  .4)  should  be  multiplied 
by  0.9  in  order  to  reduce  it  to  the  scale  of  this  Catalogue. 

The  authority  for  noting  variable  stars  has  been  Chandler's  Third  Catalogue, 
and  usually  the  limits  of  variation  have  been  adopted  from  that  authority. 


XXH  PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR   IQOO 


RIGHT-ASCENSIONS  AND  DECLINATIONS. 

The  fourth  column  on  the  left-hand  page  contains  the  right-ascension  for  1900 
(reduced  to  that  epoch  with  proper-motion,  so  that  both  equinox  and  epoch  are 
1 900) ;  and  the  second  column  on  the  right-hand  page  contains  the  corresponding 
declination.  The  most  important  general  points  relating  to  the  computation  of 
these  quantities  have  been  set  forth  in  preceding  paragraphs  of  this  Introduction. 
The  list  of  star-catalogues  employed  has  been  given,  as  well  as  a  sketch  of  the 
means  employed  to  secure  the  greatest  possible  immunity  from  the  effects  of  sys- 
tematic error.  (See  also  Ast.  Jour.,  Vol.  XXIII;  also  Catalogue  0/627  Principal 
Standard  Stars.}  A  few  words  about  the  methods  employed  in  the  computation  of 
the  individual  positions  and  motions  may  be  useful.  For  each  star,  from  a  prelimi- 
nary estimate  of  position  and  annual  variation  for  1875,  an  ephemeris  covering  the 
required  dates  of  observation  for  that  star  from  1755  down  to  the  present  was 
formed  and  carefully  checked.  In  expanding  these  ephemerides  the  third  term  of 
precession  was  taken  into  account.  For  stars  of  greater  declination  than  82°, 
standard  dates,  at  suitable  intervals,  were  derived  through  use  of  the  trigonometrical 
formulas,  as  given  by  Newcomb;  and  other  intermediate  dates  were  interpolated 
from  these. 

Then  conditional  equations  were  formed  by  means  of  the  corrections  to  the 
ephemeris  given  by  each  star-catalogue  containing  a  position  of  that  star.  These 
conditional  equations  involved  unknowns  for  correction  of  the  before-mentioned 
assumed  positions  and  annual  variations  for  1875.  The  unit  of  the  coefficient  of 
proper-motion  was  taken  as  twenty-five  years,  in  order  to  render  the  coefficients  of 
the  normal  equations  fairly  homogeneous.  In  forming  the  absolute  terms  of  the 
conditional  equations,  systematic  corrections  of  the  catalogues  of  observation  were 
employed.  In  the  early  stages  of  the  work  these  corrections  sometimes  differed 
slightly  from  those  given  in  Appendix  III,  but  the  residual  effect  upon  the  posi- 
tions and  motions  is  negligible.  The  conditional  equations  were  also  carefully 
weighted  in  conformity  with  the  tables  of  weights  contained  in  Appendix  III.  The 
normal  equations  were  solved  in  the  usual  manner,  and  the  resulting  corrections 
were  applied  to  the  quantities  assumed  as  the  basis  for  correction. 

All  the  operations  were  duplicated,  or  adequately  checked. 

The  catalogue  positions  in  right-ascension  for  1900  are  supposed  to  be  cleared 
from  the  effect  of  magnitude-equation,  as  already  stated  in  this  Introduction. 

For  several  binary  stars,  where  orbits  of  a  fair  degree  of  accuracy  have  been 
computed,  and  where  meridian-observations  exist  in  sufficient  weight  to  make  the 
attempt  worth  while,  computations  have  been  made  to  obtain  an  approximation  to 
the  relative  masses  of  the  two  components.  The  respective  radii  of  the  two  com- 
ponents in  their  orbits  around  the  center  of  gravity  lie  on  diametrically  opposite 
sides  of  that  common  center;  and  the  ratio  of  these  respective  radii  to  each  other 
and  to  their  sum  remains  constant  in  all  parts  of  the  orbit.  Therefore,  to  obtain 
this  ratio  it  is  simply  necessary  to  take  advantage  of  the  fact  that  the  form  of  the 
orbit  of  the  principal  star  around  the  center  of  gravity  is  the  same  as  that  of  the 


INTRODUCTION 


XXIII 


relative  orbit.  If  the  ratio  of  the  major  axis  of  the  actual  orbit  of  the  principal  star 
around  the  center  of  gravity  to  the  major  axis  of  the  relative,  or  ordinary  double- 
star,  orbit  be  denoted  by  r,  and  if  A0a  and  A08  be  the  coordinates  in  right-ascension 
and  declination  respectively  of  the  orbital  motion  of  the  fainter  around  the  brighter 
component,  then  the  coordinates  of  the  motion  of  the  principal  star  around  the  center 
of  gravity  will  be  —  rA0a  and  —  rA08  respectively.  Introducing  these  quantities 
also  into  the  ordinary  equations  for  determining  the  position  and  motion  of  the  star, 
—  A0a  and  —  A08  will  be  known  coefficients  to  be  computed  from  the  adopted  orbit 
of  the  binary,  and  r  will  be  an  unknown,  to  be  determined  from  the  equations  of 
condition,  along  with  the  corrections  to  assumed  position  and  motion  of  the  center 
of  gravity.  If  we  take  for  the  unit  of  mass  that  of  the  brighter  star,  then  the  mass  of 

the  fainter  star  will  be 


i  — r 


Knowing  r,  it  now  becomes  possible  to  reduce  the  observations  of  each  compo- 
nent to  the  center  of  gravity ;  and  it  is  the  position  and  motion  of  this  e.g.  that  is 
given  in  the  Catalogue.  In  Appendix  II  there  are  given  for  each  of  these  stars  the 
quantities  necessary  to  be  added  to  this  position  of  the  center  of  gravity  for  a  given 
date  in  order  to  have  the  corresponding  position  of  either  of  the  components  for 
that  date.  Following  is  a  list  of  the  binary  systems  thus  treated.  The  ratio  of 
masses  is  given  in  terms  of  the  mass  of  the  brighter  star  as  the  unit. 

TABLE  OF  BINARY  STARS  WITH  ADOPTED  RATIO  OF  MASSES. 


CATALOGUE 

NUMBERS. 

NAME. 

PERIOD, 
YEARS. 

MAGNS. 

RATIO  OF  MASSES. 

Computed. 

Adopted. 

Y 

M            M 

3 

Bradley,  3210 

IO4.6 

6.6        7.6 

1.0 

1  68 

T)  Cassiop. 

233-3 

3-6        7-9 

•75 

•75 

1732 

o  Can.  M.-ij. 

48.8 

—  2.              8.0 

•39 

•39 

2008 

a  Can.  Min. 

39- 

O.2            9.0 

•33 

•33 

2984 

£  Urs.  Maj. 

60. 

4.1            5-1 

i.i 

I.O 

33°7 

7  Virginis 

194. 

3-6        3-6 

i.i 

I.O 

3735 

o  Centauri 

81.2 

o.           1.5 

•85 

•85 

3798 

{  Bootis 

148.5 

4.8     6.7 

•87 

.87 

4138 

a  Cor.  Bor. 

37°- 

S-7        6-8 

•47 

•47 

4246 

f  Herculis 

34-5 

2.8       6.5 

•43 

•43 

4571 

70  Ophiuchi 

88.4 

4-3        5-8 

.82 

.82 

6172 

/Bradley,  3198! 
\    (8SPegasi)     I 

25-7 

6.0       ii. 

1.8 

I.O 

The  determination  for  No.  3  is  wholly  assumed  from  analogy,  and  for  No.  6172 
it  is  extremely  uncertain.  Those  for  1732,  2008,  and  3735  are  quite  precise,  and 
those  for  Nos.  2984,  3307,  4246,  and  4571  may  be  regarded  as  fairly  satisfactory. 
There  appears  to  be  no  case  in  which  the  fainter  companion  can  be  asserted  with 
high  probability  to  have  a  larger  mass  than  that  of  the  brighter  component.  In  the 
case  of  No.  6172  the  computation  is  scarcely  warranted  by  weight  of  meridian- 
observations;  and  the  result  is  very  likely  to  have  been  seriously  influenced  by 
fortuitous  grouping  of  errors. 

Notwithstanding  the  care  exercised  in  the  computations  for  binary  stars,  the 
uncertainty  of  the  result  for  predicted,  or  extrapolated,  position  and  motion  of  each 


XXIV  PRELIMINARY   GENERAL   CATALOGUE   OF   STARS   FOR    1900 

of  the  individual  components  is  materially  greater  than  for  single  stars  of  the  same 
class.  Undoubtedly  this  is  largely  owing  to  the  inevitable  uncertainty  of  the  orbital 
elements  adopted  in  these  computations  (especially  when  micrometric  observations 
have  been  extended  over  a  part  only  of  the  orbital  period)  ;  but  in  an  important 
degree,  also,  uncertainty  arises  from  decidedly  individual  systematic  errors  in 
meridian-observations  of  one  component  when  the  other  component  is  distinctly 
visible.  Accordingly,  the  particulars  regarding  probable  error  are  omitted  for  these 
stars.  At  the  same  time  it  may  be  stated  that  the  larger  part  of  these  stars,  but  for 
periodic  variability  of  motion,  would  have  belonged  to  the  higher  classes  of  standards. 

Special  computations  were  made  for  Groomb  1830  and  61  Cygni  for  the  purpose 
of  detecting  a  foreshortening  or  perspective  effect  in  the  annual  motions  of  these 
stars.  In  both  of  these  instances  the  computations  seem  to  have  been  measurably 
successful  in  exhibiting  such  an  effect,  as  will  be  seen  from  the  detailed  notes  con- 
cerning these  stars  in  Appendix  II.  In  the  case  of  the  two  components  of  61  Cygni, 
the  estimated  effect  of  mutual  curvature  of  the  components  is  also  included  in  the 
computation.  These  effects  tend  to  modify  the  centennial  variations  of  the  proper- 
motions  and  annual  variations  ;  and  these  centennial  variations  thus  modified  are 
adopted  in  the  catalogue-data  for  these  stars. 

As  already  explained  under  "Adopted  Names,"  whenever  the  letter  m  is  ap- 
pended to  the  name  in  the  second  column,  it  means  that  the  pointing  of  the  observers 
has  probably  been  made  either  upon  the  mass  of  light,  or  upon  the  mean  when  the 
components  are  either  wide  or  of  nearly  equal  magnitudes.  Notes  are  given  in 
some  cases  ;  in  others  there  must  exist  more  or  less  doubt.  Usually,  however,  the 
uncertainty  is  not  very  serious,  especially  where  the  difference  of  magnitude  is  very 
large. 

As  a  consequence  of  the  discussion  that  relates  to  probable  corrections  required 
for  the  motion  of  the  equinox  and  precession  adopted  in  this  Catalogue,  described 
later  under  "Proper-motions,"  the  right-ascensions  require  a  correction  of  +''0079 
(7—1850),  in  consequence  of  the  deduced  correction  of  +  "79  to  the  centennial 
motion  of  Newcomb's  equinox,  N1;  to  which  the  right-ascensions  of  this  Catalogue 
correspond.  This  correction  becomes  +f  026  for  1900;  and  this  is  the  common 
correction  of  all  the  right-ascensions  of  this  Catalogue,  if  it  is  desired  to  make  them 
correspond  to  the  motion  of  the  equinox  so  corrected.  This  probable  correction 
receives  some  support  from  Newcomb's  discussion  of  the  correction  required  for 
N!,  so  far  as  it  is  indicated  by  the  Washington  and  Greenwich  observations  for  several 
years  around  1897.  (Ast.  Jour.,  No.  498,  Vol.  XXI,  p.  141.)  The  following  cor- 
rections of  the  equinox,  Nu  from  observations  of  the  sun  are  there  derived  : 


From  Washington  +?053 

From  Greenwich  +^005  1896 

The  mean  of  these,  +  ?029,  is  very  near  that  otherwise  found  in  the  foregoing. 

Finally,  as  will  be  seen  later,  it  is  of  the  utmost  importance  that  the  very  great 
differences  of  accuracy  in  the  catalogue-positions  and  motions  of  different  stars  be 
not  overlooked;  and  especially  that  due  attention  be  given  to  the  relative  degree 
of  reliability  with  which  desired  predictions  for  individual  stars  can  be  effected. 


INTRODUCTION  XXV 

MEAN  EPOCHS. 

The  fifth  column  on  the  left-hand  pages  and  the  third  on  the  right-hand  pages  of 
the  Catalogue  contain  respectively  the  mean  epochs  in  right-ascension  and  declina- 
tion. These  are  the  means  by  weight  (App.  Ill)  of  the  epochs  of  observation  con- 
tained in  the  individual  catalogues  of  observation  relating  to  the  star  in  question. 
The  mean  epoch  has  this  useful  property  that,  if  we  reduce  the  separately  observed 
right-ascensions  and  declinations  from  their  respective  mean  epochs  to  that  given 
in  this  Catalogue,  and  combine  the  resulting  positions  by  weights  identical  with  those 
employed  in  forming  the  mean  epoch  in  this  Catalogue,  the  resulting  coordinates 
will  be  independent  of  the  proper-motion  employed.  For  any  date  before  or  after 
this,  the  probable  error  of  the  computed  position  (employing  the  elements  of  this 
Catalogue)  will  be  compounded  of  the  probable  error  at  the  mean  epoch  and  the 
probable  error  of  the  motion  during  the  time  elapsed.  The  statement  of  the  mean 
epoch  also  serves  to  indicate,  in  connection  with  the  probable  errors,  the  general 
distribution  of  the  observation  available  in  the  case  of  each  star.  Thus,  if  the  prob- 
able error  of  the  proper-motion  is  relatively  large  in  comparison  with  the  p.e.  at 
epoch,  then  a  very  early  mean  epoch  would  indicate  that  the  star  has  been  neglected 
in  recent  times ;  and  under  the  like  conditions,  if  the  mean  epoch  is  relatively  late, 
that  the  star  was  neglected  in  earlier  times.  If  the  mean  epoch  is  so  early  as  1860, 
for  instance,  we  have  already  in  1910,  as  a  component  of  the  probable  error  of 
position  for  that  date,  one-half  of  the  probable  error  of  centennial  variation.  For 
illustration,  take  No.  44  in  declination.  The  mean  epoch  is  1860.0;  the  probable 
error  of  declination  at  mean  epoch  is  ±  "19 ;  the  probable  error  of  centennial  proper- 
motion  (100  /*/)  is  ±''64;  therefore  that  part  of  the  probable  error  of  declination 
for  1910,  due  to  probable  error  of  centennial  proper-motion,  is  0.5  x'.'64=  ±"32. 
And  this  is  very  much  more  important  than  the  probable  error  of  declination,  ±  .19, 
that  attaches  to  the  position  at  mean  epoch  1860.  The  probable  error  of  the 
declination  for  1910  is  evidently:  ^(.i9)2+(-32)2  =  ±"37;  so  tnat  the  weight  for 
the  catalogue-declination  reduced  to  1910  is  only  about  equal  to  that  of  a  single 
good  meridian-observation. 

ANNUAL  AND  SECULAR  VARIATION  AND  THIRD  TERM  OF  PRECESSION. 

The  sixth,  seventh,  and  eighth  columns  on  the  left-hand  page  and  the  fourth, 

fifth,  and  sixth  columns  on  the  right-hand  page  contain  the  elements  necessary  for 

reducing  the  catalogue-positions  from  1900  to  any  required  epoch.     Under  '^d  t." 

(third  term)  the  element  of  geometrical  precession  that  depends  on  the  third  power 

,      ,  itPa        id?8 

of  the  time  is  given.    It  is  usually  quite  closely  equal  to  -— ,  or  -— . 

In  a  few  cases  the  proper-motion  has  been  taken  into  account  in  computing  this 
term.  If  we  denote  the  fraction  of  a  century  from  1900  by  T  (minus,  reckoning 
back),  then  the  effect  of  the  third  term  upon  the  deduced  position  is:  r3  x  (3d  t.). 
In  the  sixth  column  is  given  the  annual  variation  in  right-ascension,  and  in  the 
fourth,  on  the  right-hand  page,  the  annual  variation  in  declination.  Respectively 


XXVI  PRELIMINARY   GENERAL   CATALOGUE   OF   STARS    FOR    IQOO 

in  the  columns  following  these,  and  not  separated  by  a  rule,  are  found  the  secular 
variations  of  the  annual  variations.  These  are  different  from  the  geometrical 
secular  variations  of  the  precession,  and  again  different  from  the  variation  of  the 
precession  as  affected  by  proper-motion.  For  the  sake  of  clearness,  let  us  begin 
with  the  secular  variation  of  the  proper-motion,  A/n  (tenth  column,  left-hand  page) 
and  A/t'  (eighth  column,  right-hand  page).  We  have: 

A/i  =  [7.98762]  p  cos  a  tg  8  +  [6.81 1 53]  //  sin  a  sec2  8  +  [6.9866]  /*/*'  tg  81         , .  •> 
A/i'  =  [9.16371  n]  p,  sin  a  -I-  [8.7367 n]  /x2  sirJS  j 

The  numbers  in  brackets  are  logarithms,  computed  after  Newcomb's  constants  of 
precession.  To  denote  equations  (A)  when  terms  in  (/i/x')  and  p.2  are  omitted, 
put  A'/i  and  A'/x'  respectively.  Let  p  and  />'  denote  the  precessions.  Then  we 
shall  have: 


Geometrical  sec.  var.  =  — *  • 

A/ 

True  sec.  var.  of  precession  =  -*  +  A'/i. 

Sec.  var.  of  annual  variation  =  — *  +  A'/A  +  A/*. 

A/ 


(B) 


Accenting  p  and  p.,  we  have  the  equations  for  declination.  Usually  we  shall  have 
with  sufficient  accuracy  for  the  secular  variation  of  the  annual  variation  77  +  2  A'/u,, 

Of 

since  the  omitted  terms  in  A'/x.  and  A'/x'  are  usually  insensible.  In  the  computa- 
tions of  annual  variations  for  the  Catalogue  no  assumption  was  made  as  to  the 
precession;  but  in  computing  the  secular  variation  such  an  assumption  becomes 
necessary.  Therefore  Newcomb's  constants  were  adopted  and  formulas  (A)  and 

(B)  were  employed.     In  the  practical  computation  of   — ^  and  -%-  manuscript 

-j'  l\t 

tables  were  formed  for  declinations  less  than  60°,  and  the  terms  of  (A)  were  con- 
veniently tabulated  in  part. 

For  stars  of  numerically  greater  declination  than  82°  or  83°,  use  of  the  trigono- 
metrical formulas  was  made  to  form  standard  epochs  either  twenty-five  years  or 
five  years  apart,  according  to  need.  From  these  dates  interpolation  was  effected 
by  means  of  the  computed  annual  and  secular  variations,  with  third  terms  roughly 
derived  from  differencing  the  latter.  For  these  stars  in  the  Catalogue  the  third 
term  is  not  given,  and  one  decimal  place  is  dropped  in  printing  the  annual  and 
secular  variations.  At  the  same  time,  as  a  matter  of  convenience  for  those  wishing 
to  compare  results  of  observation  with  this  Catalogue,  positions,  motions,  and  secu- 
lar variations  have  been  computed  for  certain  standard  dates  up  to  1925,  as  given  in 
Appendix  I.  For  the  purposes  of  interpolation,  sufficiently  accurate  values  of  the 
third  term  can  be  derived  from  the  differences  of  successive  secular  variations. 
The  trigonometrical  formulas  and  constants  of  Newcomb  were  employed.  (See 
The  Precessional  Constant,  pp.  73  to  76.) 


INTRODUCTION 


XXVII 


For  the  convenience  of  the  reader  a  table  of  constants  is  here  given  adapted  for 
reducing  a  star-place  given  for  1900  to  other  dates  preceding  and  following. 

TABLES  FOR  TRIGONOMETRICAL  COMPUTATION  OF  PRECESSIONS. 
NEWCOMB'S  CONSTANTS. 


1000  TO  7* 

Date  I7 

<o 

Z 

log  sin  9 

log  tg  £ 

I 

„ 

tf 

• 

1755 
1790 
1800 
1805 
1810 

-55'  40.58 
-42  14-33 
-38  23-96 
-  36  28.78 
-  34  33-59 

-55'  38.92 
-42  13-38 
-38  23.17 
—  36  28.07 
-  34  32.97 

8.029096™ 
7.987696™ 

7.941931™ 

7.848080™ 
7.728078™ 
7.686676™ 
7.664238™ 
7.640910™ 

-48'  27.55 

-  36  45.61 
-  33  25.06 
-  31  44.10 
-  3°   4-52 

1815 
1820 
1825 
1830 
1835 

-  32  38.40 
-30  43-21 
—  28  48.02 
-26  52.83 
-  24  57.64 

-  32  37-83 
—  30  42.71 
-28  47-58 
-  26  52.45 
-  24  57-3° 

7.917106™ 
7.890774™ 
7.862741™ 
7.832775™ 
7.800587™ 

7.616083™ 
7.589750™ 
7.561717™ 
7-531750" 
7.499561™ 

—  28  24.26 
—  26  44.00 

-  25   3-73 
-  23  23.47 
-  21  43.21 

1840 

1845 
1850 

1855 
1860 

-  23   2.44 

-  21     7.25 
—  19   12.05 
-17   16.85 
—  15   21.65 

—  23   2.16 

—  21    7.01 
—  19   11.85 
—  17   16.69 
-15   21.52 

7.765820™ 
7.728028™ 
7.686632™ 
7.640870™ 
7.589714™ 

7.464794™ 
7.427001™ 
7.385605™ 

7-339843" 
7.288685™ 

-  20    2.95 

—  18  22.70 
—  16  42.44 
—  15   2.19 
—  13  21.94 

1865 
1870 

1880 
1885 

-  13   26.45 

—  9  36.04 
-  7  40.84 
-  5  45-63 

-  13   26.35 
—  II   31.18 

-  9  35-99 
•—  7  40.81 

-  5  45-6i 

7.531718™ 
7.464767™ 

7.288668™ 
7.163726™ 

7.230689™ 
7-163738" 
7.084552™ 
6.987638™ 
6.862696™ 

—  ii  41.69 
—  10   1.44 

—  8   21.20 

-  6  40.95 
-  5   0.71 

1890 

1895 
1900 

-  3  50-42 
-  i  55-21 
o.oo 

-  3  50.41 
-  i  55-21 
o.oo 

6.987628™ 
6.686595™ 

—  00 

6.686598™ 
6.385565" 

—  00 

-  3  20.47 
—  i  40.24 
o.oo 

1905 
1910 

1920 
1925 

+  i  55-21 
+  3  50-43 
+  5  45-64 
+  7  40.86 
+  9  36-08 

+  I   55-22 

+  3  50-44 
+  5  45-66 
+  7  40.89 
+  9  36-13 

6.686586 
6.987606 
7.163697 
7.288632 
7.385535 

6.385556 
6.686576 
6.862667 

6.987602 
7.084506 

+  i  40.23 
+  3  20.46 

+  5   0-69 
+  6  40.92 
+  8  21.14 

FORMULAS  OF  APPLICATION. 

Let  a'  and  8'  be  the  right-ascension  and  declination  whose  values  for  the  epoch, 
T',  are  sought ;  a  and  8  the  corresponding  coordinates  for  1900 ;  ft,  and  //  the  coordi- 
nates of  proper-motion  for  1900;  T=7V  — 1900,  in  years.  Then 

80=S  +  T// 

0 

--OS  A 


(a  » 

tan  80  +  tan  -  cos  A<>  j 


tan  A  — 


I  —  p  COS  A0 


'  =  A+z 


tan 


S'-S0 


cos 


A-A, 


0 


XXVIII  PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   IQOO 

PROPER-MOTIONS. 

The  ninth  and  tenth  columns  on  the  left-hand  pages  give  the  proper-motion,  fi, 
in  right-ascension,  and  its  centennial,  or  secular,  variation,  100  A/x,,  in  units  of  the 
fourth  decimal ;  correspondingly,  the  seventh  and  eighth  columns  on  the  right-hand 
page  give  the  proper-motion,  /u/,  in  declination,  and  its  secular  variation,  iooA//, 
in  units  of  the  third  decimal  place. 

The  proper-motions  are  derived  by  subtracting  from  the  annual  variations  the 
precessions  computed  from  Newcomb's  constants  for  1900.  They  are: 

Precession  in  R.A.  =  p  =  +  3507234  +  i!33646  sin  a  tan  8 
Precession  in  decl.  —p'=+  2o'.'o468  cos  a 

In  the  practical  computation,  Becker's  tables  (Vol.  II,  Strassburg  Observations')  or 
Downing's  tables  for  1910  were  employed.  It  did  not  seem  necessary  to  print  the 
computed  precessions ;  they  can  readily  be  recovered  for  any  star  by  subtracting  the 
proper-motion  from  the  annual  variation.  100  A/i  and  100  A/n,'  were  computed  by 
means  of  formulas  (A)  under  "Annual  and  Secular  Variation,  etc."  in  the  fore- 
going. 

As  already  stated  in  the  earlier  part  of  this  introduction,  the  ascertainment  of 
proper-motions  of  the  stars  constituted  the  chief  motive  for  the  labors  that  led  to 
the  production  of  this  Catalogue.  In  pursuance  of  this  object,  the  next  step  would 
naturally  be  to  find  out  what  corrections  of  the  adopted  precession  and  of  the 
adopted  motion  of  the  equinox  are  most  consistent  with  the  results  for  annual  varia- 
tions in  this  Catalogue.  A  tentative  investigation  indicates  that  the  proper-motions 
in  right-ascension  and  declination  as  printed  in  this  Catalogue  require  corrections  of 

+?ooo2i  —  ?oooi5  sin  a  tan  8  for  p,     and  —  "0023  cos  a  for  pf 

This  implies  a  correction  of  Newcomb's  luni-solar  precession  for  1875  of  +'.'0058 
(annual) ;  of  his  planetary  precession  (annual)  at  the  same  epoch,  of  +"0006;  and  a 
further  correction  to  the  right-ascensions  of  Newcomb's  system,  NI,  which  is  the 
basis  of  this  Catalogue,  of  +''0079  (T—  1850),  T  being  expressed  in  years.  The 
deduced  correction  for  Newcomb's  m  is :  +  '^0058  cos  at  —  "0006  =  +  "0047 ;  and  of 
Newcomb's  n  is :  +  '.'0058  sin  «  =  +  "0023,  in  which  <u  is  the  obliquity  of  the  ecliptic 
for  1875.  In  tne  normal  equations  derived  from  the  discussion  of  solar-motion 
recently  undertaken  by  the  writer,  an  unknown  quantity  A&  was  introduced  to 
represent  the  constant  effect  upon  all  the  proper-motions  in  right-ascension  of 
required  corrections: 

A£a  -  A.'m  +  AX  =  A&  =  +  '.'37  ±  "08     (Centennial) 

as  derived  from  the  equations.  In  other  words,  the  mean  of  all  the  5413  values  of 
/*  cos  8  came  out  —"37,  about  600  of  the  larger  proper-motions  having  been 
symmetrically  excluded.  A£a  represents  a  correction  to  Newcomb's  motion  of 
the  equinox,  NI  ;  A'w  represents  that  part  of  the  correction  to  m  that  arises  from 
correction  of  the  luni-solar  precession;  and  AX  represents  a  correction  to  New- 
comb's  annual  planetary  precession.  In  these  same  equations  an  unknown  Arc 
was  introduced  to  represent  the  effect  of  an  unknown  correction  to  Newcomb's  «. 


INTRODUCTION 


XXIX 


The  equation  gave  An  =  ^0034  ±  "08.  The  corresponding  A'w  is  +  ^0078.  The 
following  adjustment-equations  to  determine  centennial  corrections  were  then 
formed  with  weights  carefully  studied  from  the  probabilities  of  the  case. 


WEIGHTS. 
IO 

I 

8 

2 


DBS. 


COUP. 


A'w-AX-A£a  =  -'.'37 

A£a=  +  .30 

AX  =      .00 

A'w  =  +  .78 


+  •79 
+  .06 

+  •53 


(C) 


The  observed  absolute  terms  of  the  first  and  last  equations  come  from  the  solar- 
motion  discussion  already  mentioned,  in  the  manner  indicated  in  the  foregoing.  It 
may  be  of  interest  to  examine  some  of  the  details  in  determination  of  A&  and  An. 

From  the  final  normal  equations  founded  on  the  motions  of  5413  stars,  involv- 
ing also  the  coordinates  of  solar  motion,  the  values  of  A&  and  Am  already  cited  were 
determined.  Dividing  the  material  into  zones  parallel  with  the  equator,  we  have : 


ZONE. 

LIMITS. 

-A* 

+  An 

I 

o               o 
—  10  to  +  10 

// 

—  .62 

it 

+  .16 

II 

+  10  to  +  30 
—  10  to  —  30 

—  .20 

+  .28 

III 

+  30  to  4-  so 
—  30  to  —  50 

-•55 

+  .38 

IV 

+  50  to  +  90 
—  50  to  —  90 

—  .10 

+  •44 

All 

—  90  to  +  oo 

-•37 

+  •34 

Arranging  in  zones  parallel  with  the  galaxy,  we  have : 


ZONE. 

LIMITS 
GALACTIC  LAT, 

-A* 

+  An 

tt 

tt 

V 

0                          0 

—  19  to  +  19 

-•23 

+  •39 

VI 

+  19  to  +  42 
—  19  to  —  42 

-•34 

+  .14 

VII 

+  42  to  +  oo 
—  42  to  —  90 

-•52 

+  .42 

The  determination  of  A&  in  zone  III,  and  especially  in  IV,  has,  of  course, 
small  weight.  The  persistence  in  sign  and  average  amount  of  these  quantities  in 
the  separate  determinations  seems  rather  marked  and  tends  to  inspire  confidence 
in  the  mean.  Moreover,  the  final  normal  equations,  as  derived  from  p.  and  /*', 
separately,  give  for  An: 


An  from  right  ascensions,         +'.'38         17         ±"16 
An  from  declinations,  +-33         53         ±  -09 


XXX  PRELIMINARY   GENERAL   CATALOGUE   OF   STARS   FOR    IpOO 

This  excellent  agreement  between  the  results  from  right-ascension  and  declination 
tends  still  further  to  make  it  seem  reasonable  that  the  final  result  for  An  is  not 
seriously  affected  by  anomalous  systematic  motions  of  the  stars. 

The  absolute  term  of  the  second  equation  of  (C),  which  contains  A£a  alone 
(correction  to  assumed  motion  of  the  equinox),  is  taken  from  Newcomb.  At  page  88 
of  his  summary,  Astronomical  Constants,  Professor  Newcomb  gives  +"30  as  the 
most  probable  common  correction  of  the  centennial  motions  of  the  stars  in  his 
former  determination,  NI.  Later,  in  another  way,  he  arrives  at  an  identical  conclu- 
sion (The  Precessional  Constant,  p.  71).  The  details  making  up  these  values  are,  of 
course,  very  discordant.  The  probable  error  must  be  fully  ±  "30,  and  may  be  ma- 
terially greater.  In  order  to  incorporate  a  correction  for  the  planetary  precession 
in  the  discussion,  we  add  the  equation,  AX  =  "oo,  which  means  that  there  has  been 
no  revision  of  Newcomb's  value  of  X  published  in  Astronomical  Constants.  The 
careful  determination  of  L.  Struve  (Best,  der  Const,  der  Praec.,  1887)  would  give,  as 
the  approximate  correction  of  Newcomb's  centennial  X,  +  ".21 ;  but  the  opportunity 
of  selecting  improved  values  of  the  masses  of  the  planets  at  the  time  of  Newcomb's 
computation  seems  to  make  it  inadvisable  to  give  weight  to  L.  Struve's  determina- 
tion in  combination  with  Newcomb's. 

Solving  the  equations  (C),  first  forming  the  normal  equations,  we  have  the 
values  of  the  unknowns  already  cited  (see  also  under  "Comp,"  equations  (C)), 
as  those  which  best  harmonize  with  all  the  facts.  The  large  correction  (+"79) 
of  Newcomb's  motion  of  the  equinox,  NI,  would  not  generally  have  been  anticipated, 
perhaps.  But  from  the  observations  of  Greenwich  extending  from  1835  to  1895, 
Newcomb  found  the  "approximate  value,"  +"5  (The  Precessional  Constant,  p.  71); 
and  at  the  same  time  he  strongly  urges  the  value  of  this  correction  which  he  had 
deduced  from  the  right-ascension  of  Mercury,  +i'.'o;  so  that  the  above  value,  '.'79, 
may  not  be  considered  altogether  unreasonable.  The  deduced  value  of  X  lies  be- 
tween that  of  Newcomb  and  that  of  L.  Struve,  as  if  the  weight  3  had  been  assigned 
to  the  former  and  weight  i  to  the  latter.  The  value  of  centennial  luni-solar  pre- 
cession is  +  "58  greater  than  that  of  Newcomb  and  ."56  less  than  that  of  Struve 
(Peters's)  and  "13  less  than  that  in  Struve's  original  paper. 

These  quantities,  derived  from  the  discussion  now  in  progress  at  the  Dudley 
Observatory,  are  regarded,  however,  as  provisional ;  and  are  primarily  designed  to 
be  employed  in  the  further  progress  of  the  discussion  mentioned,  as  giving  sys- 
tematically more  reliable  values  of  the  proper-motion  than  those  contained  in  the 
Catalogue.  At  a  later  time,  it  is  hoped  that  this  discussion  may  be  resumed  with  a 
far  greater  and  systematically  more  accurate  stock  of  proper-motions. 

PROBABLE  ERRORS. 

The  three  columns  (in  one  space)  on  the  left-hand  page  under  the  caption  "prob. 
errors,"  and  the  corresponding  columns  on  the  right-hand  page,  under  the  same 
heading,  contain  certain  probable  errors  to  which  allusion  has  already  been  made. 

The  first  of  the  three  on  the  left-hand  page  under  the  special  caption,  aEp,  gives 
in  hundredths  of  a  second  of  arc  the  probable  error  of  the  catalogue  right-ascension 
reduced  to  the  mean  epoch  of  observation  as  printed  in  its  appropriate  column.  The 


INTRODUCTION 


XXXI 


second  of  these  columns,  under  the  caption,  "  100  /x,"  gives  the  probable  error  of  the 
centennial  motion.  The  third  column,  under  a  10,  gives  the  computed  probable 
error  of  the  catalogue  right-ascension  at  1910.  Corresponding  quantities  are  given 
on  the  right-hand  page  for  the  declinations. 

Seconds  of  arc  are  given  in  relation  to  right-ascension,  so  as  to  have  the  unit  of 
p.e.  the  same  as  that  for  declination  and  also  the  same  in  right-ascension  for  all 
declinations.  To  convert  these  into  time  on  the  respective  parallels,  multiply  by 
TV  sec  8. 

In  possession  of  these  quantities,  it  is  possible  to  produce  an  estimate  of  the 
probable  error  of  right-ascension  or  declination  for  any  given  epoch.  In  fact,  the 
columns  under  a  10  and  8  10  are  not  needed  for  this  purpose.  They  are  given  for 
the  convenience  of  the  reader  because  of  their  obvious  usefulness  at  the  present 
time.  The  date  1910  is  therefore  given  in  preference  to  1900.  As  an  example  of 
the  method  of  computing  the  probable  error  for  any  given  date,  let  us  suppose  the 
probable  error  of  the  right-ascension  of  Br  3208,  the  first  star  of  the  Catalogue,  to  be 
required  for  1900.  If  £  be  the  mean  epoch  for  a  given  star,  T  the  required  date, 


put  r  = 


_  E> 

IOO 


;   then  if  e£  be  the  probable  error  of  the  right-ascension  at  the  mean 


epoch  and  eM  the  probable  error  of  centennial  /t,  while  er  represents  the  probable 
error  for  the  required  date,  we  shall  have: 


In  the  case  of  Br  3208,  this  becomes: 

±r094  =  er  =  VC 


+  ('.'296  x  .27)' 


If  we  choose  ±  '.'30  as  the  p.e.  of  the  unit  of  weight,  as  has  been  the  case  with  all  the 
computations  for  this  Catalogue,  we  shall  have  as  the  weights  of  catalogue-right- 
ascension  at  the  respective  epochs: 


r 

WEIGHT. 

1870.4 
1900 
1910 

36.0 

IO.  I 
6.2 

Thus  it  is  seen  that  the  weight  of  the  predicted  right-ascension  is  rapidly  falling, 
until  in  1910  it  has  only  one-sixth  the  value  it  had  in  1870.  By  1920  this  weight  will 
have  fallen  still  farther  to  4.4.  Thus  we  are  able  to  obtain  a  very  precise  idea  of  the 
manner  in  which  the  precision  of  the  determination  for  a  given  star  is  varying  — 
information  that  is  specially  important  in  the  case  of  a  star  used  as  standard  in 
meridian-observations,  or  for  any  other  purpose  requiring  high  precision. 

The  applicability  of  these  probable  errors  has  been  repeatedly  tested  in  the  course 
of  computations  for  this  Catalogue,  and  they  are  believed  to  be  relatively  accurate, 
and  quite  certainly  not  too  small  in  the  mean.  In  order  to  secure  the  general 
reliability  of  these  probable  errors  in  the  case  of  each  individual  star,  they  are  not 


XXXII  PRELIMINARY   GENERAL  CATALOGUE  OF   STARS   FOR    IQOO 

derived  from  the  residuals  for  that  star  alone,  but  are  computed  from  the  weights 
resulting  from  the  least-square  solution,  the  probable  error  of  the  unit  of  weight 
having  been  verified  from  the  residuals  in  the  solutions  of  hundreds  of  stars.  As 
with  probable  error  in  general,  it  may  happen  that  abnormal  residuals,  or  a  favor- 
able "run  of  luck, "  may  cause  the  probable  error  computed  from  the  residuals  for  a 
given  star  to  be  greater  or  less  than  the  mean  probable  errors  printed  in  this  Cata- 
logue ;  but  it  is  believed  that,  in  the  long  run,  the  latter  are  more  reliable.  It  should 
be  borne  in  mind,  however,  that  probable  error  is  not  probable  uncertainty.  This 
latter  may  be  as  much  as,  or  more  than,  four  times  the  probable  error.  Computa- 
tion shows  that  we  ought  to  expect  that  43  out  of  the  6188  stars  of  the  Catalogue  will 
ultimately  prove  to  be  affected  by  errors  equal  to  four  times  the  printed  probable 
error  of  position,  and  similarly  for  the  probable  errors  of  motion.  But  these  will  be 
the  extremely  unlucky  cases,  and,  after  all,  they  will  be  only  about  one  star  in  140. 
Not  quite  one-fifth  of  all  the  stars  should  be  found  to  have  errors  equal  to  twice  their 
probable  errors ;  and  about  one  in  twenty-three  stars  should  turn  out  to  have  a  real 
error  three  or  more  times  the  probable  error  assigned  to  it  in  this  Catalogue. 

Then  there  are  the  mistakes,  as  distinguished  from  mathematical  probable 
error.  These  may  be  classified  for  convenience  as  follows: 

(1)  Mistakes  in  the  star-positions  as  printed   in  the   original   catalogues  of 
observation. 

(2)  Mistakes  of  computation  in  course  of  preparing  the  data  for  this  General 
Catalogue. 

(3)  Mistakes  occurring  in  the  combination  of  data  from  these  computations  in 
order  to  form  this  Catalogue  as  printed. 

Doubtless  all  the  catalogues  contain  undetected  errors  that  may  be  termed 
mistakes,  some  of  which  have  been  discovered  in  the  course  of  this  work.  The 
presence  of  such  errors,  notably  in  catalogues  like  Pi  1020,  Madr  35,  Arm  40, 
Madr  75,  and  others,  has  been  frequently  indicated  to  us  by  abnormal  residuals. 
When  it  appeared  that  these  might  be  five  times  as  large  as  the  computed  probable 
error  of  the  catalogue-positions  for  the  particular  number  of  observations  employed, 
the  residuals  were  rejected;  but,  since  satisfactory  probability  that  a  discordance 
was  really  to  be  attributed  to  a  particular  catalogue  would  often  be  wanting  in  the 
case  of  many  of  the  weaker  stars,  it  must  have  happened  in  numerous  instances 
that  the  catalogue-places  as  actually  employed  in  these  computations  are  still 
injuriously  affected  by  undetected,  material  errors  of  observing  record  or  of  com- 
putation. The  effect  of  such  undetected  errors,  and  of  other  well-known  practical 
considerations,  must  have  been  to  make  the  probable  errors  assigned  to  the  weaker 
stars  relatively  less  accurate  than  for  the  stronger  stars,  from  which  abnormal 
errors  are  more  completely,  though  not  entirely,  eliminated.  In  considering  this 
first  point,  however,  it  should  be  noted  that,  in  computing  the  weights  of  observed 
star-positions  (App.  Ill)  some  of  the  effect  of  mistakes  in  the  individual  cata- 
logues is  naturally  included. 

As  to  errors  in  the  computation  for  this  work,  very  great  care  has  been  exercised 
to  reduce  the  number  of  these  to  the  lowest  possible  limit.  The  greatest  part  of 
this  work  has  been  absolutely  duplicated,  and  all  of  it  has  been  carefully  checked. 


INTRODUCTION  XXX1U 

Probably  the  most  fruitful  source  of  mistakes  will  be  found  to  have  arisen  in  the 
process  of  assembling  the  data  arising  from  the  computations  in  order  to  form 
the  Catalogue  as  printed.  In  preparation  for  the  printer's  copy  of  the  Catalogue  the 
needed  material  from  various  sets  of  computations  had  been  assembled  on  cards 
arranged  in  the  order  of  right-ascension.  The  solution  of  the  normal  equations  for 
each  star  had  given  corrections  applicable  to  the  assumed  positions  and  annual 
variations  f  or  1  8  7  5  .  Another  process  gave  those  to  be  applied  to  the  assumed  position 
and  annual  variation  for  1900.  The  corrected  positions  and  annual  variations  for 
both  dates  were  copied  on  the  catalogue-cards,  together  with  other  data  relating 
to  precession,  proper-  motion,  etc.  Then  the  corrected  position  for  1900  was  rigor- 
ously reduced  to  that  of  1875,  with  the  elements  provided  for  that  purpose  in  this 
Catalogue.  This  served  for  the  detection  of  several  small  errors  in  the  original 
ephemerides,  or  in  forming  the  corrected  places.  This  process  not  only  resulted 
in  a  satisfactory  verification  of  the  relative  positions  for  1875  and  1900,  but  at  the 
same  time  it  afforded  a  good  check  on  the  annual  variations  and  a  check  against 
gross  errors  in  the  secular  variation  ;  but  it  was,  of  course,  ineffective  as  to  errors 
common  to  the  data  for  both  1875  and  1900.  Various  tests  and  checks  have  been 
employed  to  guard  against  any  very  important  error  of  this  kind,  like  errors  of 
i'  or  is. 

METHOD  OF  CORRECTING  THE   CATALOGUE-POSITIONS  AND  MOTIONS 
BY   MEANS  OF   ADDITIONAL   OBSERVATIONS. 

The  probable  errors  already  described  may  be  made  to  serve  a  useful  function 
additional  to  that  of  affording  a  criterion  of  the  precision  attained.  From  these 
probable  errors  may  be  recovered  normal  equations  which,  though  not  the  same, 
are  sufficiently  equivalent  to  those  from  which  the  catalogue-positions  and  motions 
resulted.  As  an  example,  take  No.  i,  Br  3208,  or  33  Piscium,  in  right-ascension. 
We  have:  €„=  ±"05,  the  probable  error  of  right-ascension  at  the  mean  epoch, 
1870.4  ;  €„  =  ±  '.'27,  the  probable  error  of  centennial  fi.  If  now  we  put  for  the  prob- 
able error  of  the  unit  of  weight,  ±  "30,  and  if  we  make  a  quarter  of  a  century  the 
unit  of  time  from  the  mean  date,  we  shall  have  as  normal  equations  for  correction  of 
the  Catalogue  for  1870.4: 

30.0  Aa0+      .oA//,0  =  !ooo 
o  Aa0+  19.8  A/i0  =  .000 

Acto  is  the  required  correction  of  the  right-ascension  for  1870.4,  the  catalogue  mean 
epoch,  and  its  coefficient  is  the  weight  corresponding  to  e0.  A/AO  is  the  required 
correction  of  the  catalogue-value  of  25  /t,  and  its  coefficient  is  the  weight  corre- 

sponding to  ^-    Now  suppose  that  a  determination  of  the  right-ascension  of  this 

4 

star  is  to  be  made  in  1909.9,  and  that  the  weight  of  that  determination  is  to  be 
6.0.  Suppose  this  determination  corrects  the  catalogue  right-ascension  by  +  -030. 
Then  we  shall  have  as  a  conditional  equation  from  this  determination  : 

-4A          +!030)  or 


25 


XXXIV  PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   IQOO 

Proceeding  in  the  usual  manner,  we  shall  have  to  add  to  the  first  of  equations  (D), 

6.oAoo  +  9.48    A/i0=  +?i8o 
and  to  the  second  of  equations  (D), 

9.48  Aoo+  14.98  A/i0  =  +  !284 
The  new  normal  equations  become: 

36.0  Aoo  +  9.5  A/x0  =  +  fi8o 
9.5  Aoo  +  34.8  A/*°=  +  ?284 
The  solution  of  these  gives 

=  +  foo3  (for  1870.4) 


A/u,  =  +  ? 


The  new  mean  epoch  is  1877.0.     For  1900  we  should  then  have  Aa=  +  !oi2,  and 
consequently  : 

("Right-ascension   =oh  om  13^013 
1900  I  Annual  variation  =        +   3*0712 
[Proper-motion     =  —  !ooio 

The  probable  error  at  the  epoch,  1877,  ^  ±"°5  (weight  36),  and  the  probable 
error  of  centennial  motion  is  ±  "21  (weight  *-£•  =  2.02).      The  probable  error  for 

1910  is  now  ±  "085  instead  of  ±  "12  given  in  the  Catalogue;  consequently  the  weight 
for  that  date  is  nearly  doubled. 

Owing  to  the  rounding  of  the  probable  errors  on  the  second  decimal  place,  the 
weights  for  position  at  mean  epoch  and  for  centennial  proper-motion  may  differ 
somewhat  from  the  actual  results  from  the  solution-normals  from  which  the 
catalogue-results  were  derived.  But  this  difference  will  be  larger  for  the  best- 
determined  stars,  and  there  it  will  be  of  no  material  consequence.  In  the  present 
case  the  normals  actually  derived  from  the  computations  for  the  Catalogue  are: 

32.2Aoo+  o.o  A/u,0  =  fooo 
o.o  A<XO  +  20.  2  A/i0  =  !ooo 

If  these  be  substituted  for  equations  (D),  the  subsequent  solution  will  not  materially 
differ  from  the  one  already  reached  through  (D). 

The  process  outlined  in  the  foregoing  is  applicable  to  the  introduction  of  any 
number  of  determinations  additional  to  those  employed  in  the  construction  of  the 
Catalogue  ;  and  these  may  have  dates  previous  to  the  mean  epoch,  as  well  as  after 
it.  Other  methods  to  fit  special  requirements  will  suggest  themselves  to  the  expe- 
rienced computer. 


INTRODUCTION  XXXV 

THE  NOTES  TO  THE  CATALOGUE. 

An  attempt  has  been  made  to  present  special  information  in  relation  to  stars 
of  the  Catalogue  upon  the  pages  where  these  stars  are  found,  either  in  the  column 
of  "Remarks,"  or  at  the  foot  of  the  page.  In  order  to  do  this  it  was  necessary  to 
take  somewhat  drastic  measures  by  reducing  the  notes  to  their  lowest  terms.  For 
the  convenience  of  readers  it  seemed  desirable  that  the  column  of  "Remarks" 
should  be  primarily  devoted  to  giving  the  constellation  and  the  Flamsteed,  or 
Gould,  number  of  bright  stars  referred  to  in  the  second  column  by  a  catalogue- 
number.  Thus  for  star  No.  i  many  readers  might  prefer  the  designation  33 
Piscium,  and  this  has  been  accordingly  inserted  in  the  column  of  remarks.  Since 
we  have  in  common  use  the  letters  H,  B,  and  G  for  the  numbers  of  Hevelius,  Bode, 
and  Gould,  respectively,  consistency  would  seem  to  require  F  for  Flamsteed ;  but 
long-continued  custom  may  now  be  considered  to  have  sanctioned  the  omission  of 
that  letter.  It  has  rarely  been  thought  necessary  to  introduce  the  Bode-number 
in  the  pages  of  this  Catalogue ;  and  only  a  very  sparing  use  has  been  made  of  the 
numbers  of  Hevelius,  which,  however,  may  be  found  to  be  convenient  in  connec- 
tion with  some  stars  near  the  north  pole.  Furthermore,  in  this  column,  both  Greek 
letters  with  exponents  and  Roman  letters  have  been  retained  to  some  extent  as 
facilitating  identification;  though  the  further  use  of  either  should,  perhaps,  be 
discouraged.  The  employment  of  the  Roman  small  letters  is,  however,  especially 
to  be  deprecated  as  leading  to  endless  confusion  both  in  printed  catalogues  and  in 
observatory-records. 

In  general  the  notation  of  Baily  in  the  Catalogue  of  the  British  Association  has 
been  preferred,  in  spite  of  some  errors  there  introduced.  This  has  been  done  with 
the  idea  that  the  name  of  a  star  that  has  been  commonly  in  use  might  be  more 
useful  for  identification  than  that  which  it  historically  ought  to  be.  The  "B.A.C." 
has  served  extensively  as  a  manual  of  reference  in  that  respect.  Usage  has  been  so 
diverse,  however,  as  to  absolve  any  one  who  may  depart  from  a  consistent  course  in 
the  adoption  of  star-names.  The  computing  astronomer  ought  to  be  released  from 
the  exacting  and  time-consuming  demands  that  would  be  entailed  by  a  thorough 
examination  of  rights  of  priority  in  reference  to  the  names  of  stars. 

The  entire  department  of  physical  notes  has  been  practically  abandoned  in  the 
preparation  of  this  Catalogue.  Careful  notes  in  regard  to  color  and  spectrum 
would  have  had  a  distinct  use;  but  these  would  have  swollen  an  already  crowded 
page;  and  they  belong  more  appropriately  to  special  works,  such  as  have  been 
already  published,  or  are  in  course  of  preparation  elsewhere.  One  apparent  excep- 
tion to  this  rule  has  been  admitted :  the  limits  of  variation  for  variable  stars  have 
been  stated  on  the  authority  of  Chandler's  Third  Catalogue.  But  these  may  be 
considered  simply  to  supply  a  deficiency  in  the  columns  assigned  to  magnitude. 

An  estimate  of  the  annual  parallax  has  been  quoted  in  several  instances  where 
reliable  determinations  exist. 

Most  of  the  notes  refer  to  double  or  binary  stars.  So  far  as  these  appear  on 
the  catalogue-pages,  they  are  very  concise.  They  are  sometimes  found  in  the 
column  of  remarks  —  more  commonly  at  the  foot  of  the  page.  Normally  they  give 
the  designation  of  the  star  (as  2  2,  or  18391);  the  magnitude  of  the  companion, 


XXXVI  PRELIMINARY   GENERAL   CATALOGUE   OF   STARS   FOR    IQOO 

or  the  magnitude  of  both  stars  when  the  mean  is  given  in  the  Catalogue  ;  next  the 
estimated  distance  in  1900  ;  and  the  estimated  position  angle  at  that  date. 

The  general  catalogues  of  Innes,  Lewis,  and  Burnham  have  furnished  the  infor- 
mation herein  adopted.  Many  of  the  statements  of  numerical  data  are  followed  with 
the  remark,  "binary,"  "slow  binary,"  "rapid  binary,"  etc.;  but  in  all  cases  where 
exact  information  is  required  one  will,  of  course,  recur  to  original  sources  or  to  the 
general  catalogues  mentioned.  In  the  column  of  Remarks,  "See  Appendix"  refers 
to  notes  in  Appendix  II,  to  which  were  transferred  all  comments  upon  individual 
stars  too  lengthy  for  insertion  on  the  pages  of  the  Catalogue.  These  notes,  few  in 
number,  refer  chiefly  to  peculiarities  of  motion. 

APPENDIX  I. 

Immediately  following  the  Catalogue  is  a  list  of  stars  within  eight  degrees  from 
the  pole  for  which  computed  places  are  given  for  dates  subsequent  to  1900.  From 
these  and  for  ordinary  requirements  the  reader  has  the  means  for  deriving  with  ease 
the  predicted  place  for  any  date  subsequent  to  1900  and  up  to  1925  without  a 
trigonometrical  reduction.  The  places  predicted  in  Appendix  I  were  derived  by 
trigonometrical  computation  with  Newcomb's  constants.  They  were  checked  by 
mechanical  integration,  which  operates  also  as  a  very  fair  check  upon  the  accuracy 
of  the  computed  values  of  annual  and  secular  variations.  These  ephemerides  lay 
no  claim  to  more  than  substantial  accuracy. 

The  table  given  previously  in  the  chapter  on  "Annual  Variation,  etc.,"  at  p. 
xxvii  of  this  Introduction,  was  employed  in  the  construction  of  the  ephemerides, 
and  it  may  be  found  convenient  for  purposes  of  verification. 

For  Polaris  and  8  Ursae  Minoris  an  ephemeris  for  five-year  intervals  throughout 
the  nineteenth  century  is  also  included. 

In  interpolating,  it  will  usually  be  necessary  to  take  into  account  the  third 

term  (--£}•    This    may  be    derived  with    sufficient   approximation   from   the 

\O  (tt  J 

differences  of  secular  variation.  Designating  by  v1  and  v2  two  successive  values  of 
the  secular  variation  separated  by  the  interval  T,  we  obviously  have  for  the  third 
term  in  right-ascension  (and  correspondingly  for  declination)  : 


When  T  =  5  or  25  years  respectively,  we  have  : 

For  5  years'  interval,  ^-~  =  (tfc-V^-  -J 

For  25  years'  interval,  -~  =  (v*-v 

O  Afr 

In  general,  the  numerator  of  the  coefficient  is  1000  and  the  denominator  is  0.6  T. 

As  an  illustration,  let  it  be  required  to  compute  the  right-ascension  of  No.  185 

(=Br  74)  for  1910.    We  have  sec.  var.  for  1900,  +'6019,  and  for  1925,  +J6378. 

Hence  the  third  term  is:    (  +  s.6^8-^6oig)(i^s-')=  +2S.^    for  1912.5,  about. 


INTRODUCTION  XXXVII 

With  this,  working  forward  from  1900,  or  backward  from  1925,  we  arrive  very 
closely  at  the  same  right-ascension  for  1910,  viz.  oh  46™  23^2 ;  whereas  if  the  third 
term  had  been  neglected,  there  would  have  been  a  discrepancy  of  about  ?oi.  In 
order  to  verify  the  original  reduction  from  1900  to  1925,  compute  the  effect  of  the 
third  term  for  25  years.  This  is  +  2?39  (±  ^j)=  ±  ^037.  Including  this  with  the 
effect  of  annual  and  secular  variation,  working  either  forward  or  backward,  we  find 
as  the  reduction  from  1900  to  1925,  +  2m  14*47,  exactly  that  which  was  found  by 
the  trigonometrical  computation. 

APPENDIX  II. 

Appendix  II  contains  the  longer  notes  pertaining  to  individual  stars  in  the 
Catalogue.  These  refer  chiefly  to  stars  having  peculiarities  of  proper-motion,  such 
as  periodic  proper-motion  of  each  of  the  components  of  a  binary  star.  Also  for 
two  stars,  Groomb  1830  and  61  Cygni,  the  effect  of  perspective  in  apparent  accelera- 
tion, or  retardation,  of  the  annual  angular  motion  is  discussed  and  these  effects 
have  been  incorporated  in  the  Catalogue.  Further  details  will  be  found  in  the 
notes  for  those  stars. 

As  to  the  stars  in  relation  to  which  there  has  been  an  attempt  to  trace  the  path 
of  each  component  around  the  common  center  of  gravity  — •  the  position  of  which  is 
given  in  the  Catalogue  —  the  peculiarities  of  each  case  are  presented  in  the  notes. 
In  general  it  may  be  said  that  only  in  the  case  of  Procyon  was  there  an  attempt 
to  use  the  meridian-observations  for  determining  the  form  of  the  real  orbit.  The 
meridian-observations  are  not  at  all  suited  for  this  purpose,  not  only  because  of 
lack  of  sufficient  accuracy,  but  still  more  because  of  the  very  great  difficulty  in 
finding  from  them  the  projected  focus  —  the  place  of  the  center  of  gravity.  At 
the  same  time  the  peri-astron,  as  well  as  the  orbit  generally,  was  adjusted  to  bring 
the  meridian-observations  into  comparative  harmony  with  the  indications  of  the 
micrometrical  observations.  In  all  other  cases  the  computation  was  confined  to 
the  problem  of  ascertaining  the  dimensions  of  the  orbit  of  the  principal  star,  assum- 
ing the  elements  of  that  orbit,  except  semi-axis  major,  to  be  directly  derivable  from 
the  elements  of  the  orbit  described  by  the  fainter  around  the  brighter  component. 
The  general  method  employed  in  computing  the  orbital  motion  of  each  component 
of  a  binary  star  around  the  center  of  gravity  has  been  outlined  in  a  previous 
chapter  of  this  Introduction,  entitled,  "Right-ascensions  and  Declinations,"  pp. 
xxn-xxiv  of  this  Introduction,  where  also  a  catalogue  of  the  special  determina- 
tions is  given. 

APPENDIX  III. 

In  Appendix  III  are  given  the  latest  revised  systematic  corrections  and  weights 
of  individual  star-catalogues  adopted  in  the  formation  of  this  General  Catalogue. 
The  method  of  deducing  these  corrections  is  briefly  described  in  the  foregoing  Intro- 
duction, and  is  given  more  in  detail  in  various  numbers  of  Volume  XXIII  of  the 
Astronomical  Journal  —papers  subsequently  collected  under  the  title:  Catalogue 
0/627  Principal  Standard  Stars. 


THE   CATALOGUE 


PRELIMINARY   GENERAL   CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and  Sec. 
Var. 

3dt 

(i  and  100  A  (i 

Prob.  Errors. 
aEp.       loop     aio 

M 

h     m        s 

s                  s 

s 

s 

tt           it         a 

I 

Br  3208 

4.8 

o    o  13.001 

70.4 

+  3.0709—  .0014 

+  .OIO 

—  .0013       o 

.05            .27         .12 

2 

Br  3209 

5-9 

o  33.87S 

70-3 

+3.0755  +.0087 

+  .OII 

+  .0024       o 

.IO           .44         .20 

3 

Br  3210  m 

6.2 

I      1.673 

71.0 

+  3.  1148+.  0508 

+  .046 

+  .0329+   5 

4 

1,9721 

6.0 

I      8.365 

90.8 

+  3.H90-.0343 

+  .030 

+  .0545-  6 

•16       1-54      -34 

5 

Br  3211 

5-6 

I   14.495 

70.0 

+  3.0882  +.0628 

+  .068 

+  .OOI2         0 

.10        .33       .16 

6 

Br  3212 

6.4 

1  25.251 

69.8 

+  3.  1056+.  0185 

+  .014 

+  .0288+     2 

.07         .32       .14 

7 

Br32i3 

6.6 

2  36.719 

81.9 

+  3-0733  +-0004 

+  .OIO 

+  .0018      o 

•07        -39      -13 

8 

L9735 

5-9 

2  58.625 

82.4 

+  3.0574-  -0180 

+  .017 

—  .0032       o 

.11        .66      .21 

9 

Br  3214 

6.6' 

3    4-850 

74-o 

+  3.07  1  7  +.0005 

+  .010 

+  .0003       o 

.11        .40      .18 

10 

o  Andromedae 

2.O 

3  13-032 

65-9 

+  3.0931  +  .0185 

+  .014 

+  .0106      o 

.02             .11          .06 

ii 

Br  3217  m 

6.4 

3  48.486 

64-3 

+  3.  2246+.  1733 

+.434 

+  .0363+18 

.10            .44          .22 

12 

/3  Cassiopeiae 

2.2 

3  50-304 

72.2 

+  3.  1766+.  0542 

+  .049 

+  .0676+10 

.03             .14         .06 

13 

Br32i8 

5-8 

3  52-843 

69-7 

+  3.  0887  +  .0117 

+  .OII 

+  .0092       o 

.12             .52          .24 

H 

L  9740 

6.7 

3  59.529 

84.4 

+  3.0386  -.0389 

+  .038 

—  .0010       o 

.18            .80         .27 

IS 

Pi  285  m 

5-6 

4  15-234 

83.8 

+  3.0641  —  .0141 

+  .014 

+  .0053       o 

.14        .68      .22 

16 

t  Phcenicis 

3-9 

4  20.244 

81.8 

+  3.057I-.0288 

+  .026 

+  .OII2—     I 

.10        .48      .16 

17 

Pi  286 

7-4 

4  47-848 

69.4 

+  3.07  14+  .0005 

+  .010 

+  .0006      o 

.11      .58     .26 

18 

Br32i9 

5-7 

4  53-797 

66.2 

+  3.  0800  +.007  7 

+  .OIO 

+  .0023       o 

.12             .39         .21 

19 

Br  3220 

5-2 

5    7-217 

83-4 

+  3-I03I  +  .033I 

+  .025 

+  .0004      o 

.05        .32      .10 

20 

Pi  i 

6.2 

5  11-672 

76.1 

+  3.0712—  .0009 

+  .OIO 

+  .0019       o 

.10            .54         .21 

21 

L9756 

5-5 

5  30-33- 

73-2 

+  2.8062—  .1926 

+.766 

—  .0127—10 

.06            .45          .l8 

22 

Br  3222 

5-i 

6  10.483 

67.9 

+  3.0562  —  .0062 

+  .OII 

—  .0058       o 

.10        .33       .17 

23 

Pi  6 

5-7 

6  29.824 

85-9 

+  3.0532-.  0137 

+  .014 

+  .0013      o 

.08        .68      .18 

24 

6  Sculptoris 

5-3 

6  39-042 

81.6 

+  3-0574-  -0190 

+  .017 

+  .0129—   I 

.IO            .62          .20 

25 

Paris  134 

5-6 

7    4-068 

94.0 

+  3.0610—  .0076 

+  .OI2 

+  .0024       o 

.14            .93          .20 

26 

L2 

7.0 

7  59-iiS 

88.7 

+  3.0541  -.0102 

+  •013 

+  .0015      o 

.13      1.08      .26 

27 

y  Pegasi 

2.9 

8    5-127 

67.6 

+  3.o846  +  .oio2 

+  .011 

.0000      o 

.02            .12         .06 

28 

L6 

7.6 

8  11.387 

91.0 

+  3.0332  -.0207 

+  .019 

—  .0013       o 

.12            .75         .19 

29 

Br  2 

5-9 

8  19.058 

76-3 

+  3.  1027+.  0283 

+  .O2O 

—  .0110—     I 

.09            .40         .17 

30 

Paris  169 

5-5 

9  20.827 

94-5 

+  3.0684  —  .0020 

+  .010 

+  .0040       o 

.13             .93          .20 

31 

X  Pegasi 

5-o 

9  25.627 

65-7 

+  3.0986+.  0132 

+  .OI2 

+  .0066      o 

.11             .46         .24 

32 

L23 

5-9 

9  31-59- 

83.5 

+  2.35I-  -.200- 

—  .007-  +12 

.10         I.OO         .28 

33 

Br4 

4-7 

9  33.687 

75-5 

+  3.0509—  .0080 

+  .OI2 

—  .0017       o 

.IO           .56         .22 

34 

Capes,  24 

5-9 

9  48-245 

92.8 

+  3.0636  —  .0029 

+  .OIO 

+  .0015      o 

.11            .8l         .18 

35 

BrS 

6.1 

9  49.756 

61.6 

+3.0873  +.0068 

+  .OIO 

+  .0066       o 

.09           .39         .21 

36 

Li8 

6-5 

9  55409 

84.2 

+3.0377  -.0183 

+  .017 

+  .0066       o 

-15         I-°4         -32 

37 

Br6  m 

6-5 

10  33.218 

80.3 

+  3-3334+-I465 

+  .292 

+  .0068+   3 

.04            .34         .11 

38 

L  22 

S-8 

ii    5-452 

86.1 

+  3.0423-.  0158 

+  .015 

+  .0104—   I 

.13            .72          .22 

39 

Br7 

6-3 

ii  25.693 

67.9 

+  3.0790+.  0066 

+  .OIO 

—  .0023       o 

.11             .39         .20 

40 

Pi  26 

7-6 

ii  31.779 

72.8 

+  3-0734+  -0032 

+  .OIO 

—  .0005       o 

•13            -51          -23 

4i 

Pi  25 

6.0 

ii  34-617 

74.8 

+  3-  1  939  +-0605 

+  .060 

.0000      o 

.11             .48         .20 

42 

BrS 

7-8 

ii  36.048 

64.6 

+  3.  0896  +.0097 

+  .OIO 

+  .OOI2          O 

•IS            .58         -30 

43 

0  Andromedae 

4-5 

"   51-933 

76-4 

+  3.I225+.0267 

+  .019 

—  .0041       o 

.08           .27         .12 

44 

Groomb  33 

6.0 

II   52425 

65-7 

+  3.  1504+.  0365 

+  .027 

+  .0028       o 

.21            .80         .41 

45 

Br  10 

6.8 

12  15.401 

67.9 

+  3.0885  +.0070 

+  .OIO 

+  .0057       o 

.10        .33       .17 

46 

Groomb  35 

6.2 

12   24.819 

72.2 

+  3.i6oi  +  .o4i3 

+  .032 

—  .0012       o 

.15            .57         .26 

47 

o  Octantis 

7'S 

12   29.84- 

74-2 

-0.768.  +  2.376- 

+  .019-  -95 

•05             .30         .12 

48 

Br  ii 

7-5 

12  38.519 

68.8 

+  3.io8i  +  .oii2 

+  .OIO 

+  .0149      o 

.11             .38         .19 

49 

Pi  33 

6-5 

12  39.480 

77-4 

+  3.0787  +  .0032 

+  .OIO 

+  .0049      o 

-07             -42          .15 

50 

o-  Andromedae 

4.6 

o  13    6.062 

79-2 

+  3-I227+.025I 

+  .018 

—  .0056       o 

.08            .39         .15 

ii  2  2.     7l"o  —  7^3  binary,  < 

i",  isoyrs.±.         15  0  391.  6?4  -  6?5;  i"  272°.                             18  S  S-     IOM  8"  160°. 

35  2  12.     7?8  11"  149°.                                         37  2  13.     7«"o  -  7««s  o'/8  83°.  Slow  binary.        45  2  22.    81?o  4"  »37°- 

CATALOGUE  OF  6l88  STARS  FOR  1900 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3at 

n'and  100  A  ji' 

Prob.  Errors. 
SEp.  100  H.'  Sio 

Remarks. 

I 

0         '                  " 

-  6  16    1.19 

69-3 

+  20.137  —  .009 

-•17 

n 

+  .090    o 

.05      .20    .09 

33  Piscium 

2 

+  12   50  22.83 

70.4 

+  20.049—  .010 

-•17 

+  .002     o 

.09      .37    .17 

86  Pegasi 

3 

+  57  S2  44-89 

68.1 

+  20.085—  .on 

-•17 

+  .038    o 

See  Appendix 

4 

-4937  5i-76 

88.6 

+  20.004—  .on 

-•17 

—  .043    o 

.13    1.15    .28 

37  G  Phoenicis 

5 

+  63  38  22.21 

68.2 

+  20.052  —  .on 

--1? 

+  .005    o 

.08      .32    .16 

io  Cassiopeia 

6 

+  28  28  10.99 

67.6 

+  19.870—  .on 

-•17 

—  .176    o 

.06      .27    .13 

-  7 

-  3    6  19.72 

75-4 

+  20.050—  .014 

-.17 

+  .004    o 

.07      .34    .14 

4  Ceti 

8 

-34    5  10.10 

81.5 

+  20.054  —  .014 

-•17 

+  .009    o 

.10        .63      .21 

50  G  Sculptoris 

9 

-  3    o  15.66 

72.0 

+  20.040—  .015 

-•17 

—  .005     o 

.09        .35      .16 

5  Ceti 

10 

+  2832  17.86 

64-3 

+  19.884—  .015 

--I7 

—  .161     o 

.02         .11      .06 

ii 

+  79    932.32 

63.5 

+  20.015  —  .016 

-.19 

—  .029    o 

.10      .36    .19 

* 

12 

+  5835  53-45 

69.0 

+  i9.863-.oi7 

-.17 

-.181     o 

.03         .14      .07 

13 

+  i7  39  2I-37 

68.6 

+  20.011  —  .016 

--I7 

-•033     o 

.11         .46      .22 

87  Pegasi 

14 

-5433  32-93 

80.6 

+  20.058—  .016 

-•17 

+  .014    o 

.14         .60      .22 

38  G  Phoenicis 

IS 

-2832  39.96 

78.6 

+  20.042  —  .017 

-•17 

—  .001     o 

.13         .63      .24 

51  G  Sculptoris  K'* 

16 

-46  17  57.13 

81.9 

+  I9-857--°I7 

"•I? 

-.186    o 

.08         .43      .14 

17 

-  3    7    2-86 

69.6 

+  20.032  —  .018 

-•17 

—  .010    o 

.09         .50      .22 

18 

+  1035  20.85 

66.1 

+  20.041  —  .018 

-•17 

—  .001       O 

.10      .34    .18 

34  Piscium  * 

19 

+  453056.72 

75-i 

+  20.041  —  .019 

-.18 

—  .001       O 

.06         .26      .11 

22  Andromeda 

-  20 

-   5  48  15.42 

76.8 

+  20.022  —  .019 

-•17 

—  .020    o 

.09         .47      .l8 

21 

—  82  46  48.24 

72.2 

+  20.029—  .018 

-•13 

—  .012    o 

.06         .36      .15 

i  G  Octantis  y3 

22 

-16    i    1.37 

73-6 

+  I9-773-.02I 

-•17 

—  .267     o 

.09         .32      .14 

6  Ceti/ 

23 

—  28  21  24.42 

84.4 

+  20.056  —  .021 

-•17 

+  .017     o 

.08         .48      .15 

52  G  Sculptoris  <c  * 

24 

-3541  34.80 

79-5 

+  20.158  —  .022 

-•17 

+  .120      O 

.10         .60      .21 

25 

-18  2937.95 

89.0 

+  20.017  —  .022 

-•17 

—  .020    o 

.14         .73      .21 

26 

-23    137-37 

88.3 

+  20.051  —  .024 

-•17 

+  .016    o 

.13      1  .06      .26 

27 

+  1437  39-!6 

65.8 

+  2O.O2I  —  .024 

-.17 

-.013     o 

.02         .11       .05 

Algenib. 

28 

-38  22  44.73 

81.8 

+  20.025—  .024 

-.16 

—  .009    o 

.12         .51      .19 

54  G  Sculptoris 

29 

+  40  28  59.46 

69.1 

+  19.884—  .025 

-•17 

-.150    o 

.08        .32      .16 

23  Andromedae 

30 

-  8  20  12.88 

92-4 

+  2O.04O—  .027 

-.I? 

+  .OIO      O 

.12         .83      .19 

ft  486.  IOM  3"  5° 

31 

+  1939  1-31 

63-4 

+  2O.OI9—  .027 

-•17 

—  .on     o 

.IO        .42      .22 

32 

-8533  1.98 

85.2 

+  20.089—  .023 

+  -O59     o 

.09      I.O7      .28 

2  G  Octantis 

33 

—  19  29  12.96 

77-7 

+  19.966—  .027 

-•17 

-.063     o 

.09        .38      .15 

7  Ceti 

34 

-io    731.61 

88.7 

+  2O.O3I  —  .O28 

-•17 

+  .003     o 

.IO        .6l      .16 

35 

+   8  15  56.13 

54-6 

+  2O.004—  .028 

-•17 

—  .024     o 

.08         .36      .22 

35  Piscium  * 

36 

-35  27  36-33 

77.2 

+  19.999—  .028 

-.16 

—  .029     o 

.14         .73      .28 

57  G  Sculptoris 

37 

+  76  23  42.24 

77-6 

+  20.025—  .031 

—  .21 

—  .001       0 

.05         .31       .11 

* 

38 

-32    o    5.89 

83.6 

+  19.997  -.030 

-.16 

—  .026    o 

.12         .59      .20 

58  G  Sculptoris 

39 

+   7  4i    5-36 

66.6 

+  20.013—  .031 

-•17 

—  .009     o 

.11          .35      .19 

36  Piscium 

40 

+    i  i?  39-83 

65-7 

+  2O.O42  —  .031 

-•17 

+  .O2O      O 

.11          .40      .21 

41 

+  60  58  39.13 

69-5 

+  20.OI9—  .032 

-.18 

—  .002    o 

.10      .38    .18 

42 

+  13  21   39.38 

65-3 

+  2O.OI5  —  .031 

-•17 

—  .006    o 

.12         .59      .29 

37  Piscium 

43 

+  38      734.89 

69.8 

+  2O.OOO—  .032 

-.18 

—  .020    o 

.08         .27      .13 

44 

+  47  23  30-32 

60.0 

+  2O.OO8—  .032 

-.18 

—  .012    o 

.19         .64      .37 

45 

+  8  19    7.50 

63-3 

+  20.  103  -.033 

-•17 

+  .085    o 

.08         .27      .15 

38  Piscium  * 

46 

+  5052  39.19 

64.0 

+  20.0l6—  .033 

-.18 

—  .001       0 

.14         .49      .26 

47 

-8855    8.38 

76.2 

+  2O.O22—  .OO2 

+  .005     o 

.05      .27    .10 

Brisb  32 

48 

+  1546  34.00 

66.4 

+  19.989-.  034 

-•17 

—  .027     o 

•09      -35    -18 

39  Piscium 

49 

+   i    7  57-75 

74.2 

+  20.025  -.033 

-•17 

+  .009    o 

.06      .39    .15 

50 

+  36  13  50.83 

76.8 

+  19.970-.  035 

-.18 

—  .044    o 

•07      -34    -13 

PRELIMINARY   GENERAL  CATALOGUE  OF  STARS   FOR   IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3at 

H  and  zoo  A  n 

Prob.  Errors. 
aEp.     loop,    a  10 

M 

h    m        s 

s                 s 

S 

s 

//            it         tf 

51 

Pi  38 

6.0 

o  13  24.850 

76.1 

+  3-I259+.02H 

+  .015 

+  .0067      o 

.14         .82       .31 

52 

Br  13 

6.1 

13  25.762 

64.6 

+3.  1485  +.0320 

+  .023 

+  .0026       o 

.11            .42         .22 

53 

iCeti 

3-7 

14  19.984 

76.9 

+  3-°573-  -0022 

+  .OIO 

—  .0012      o 

.03            .20         .07 

54 

BnS 

7.0 

14  46.130 

64.9 

+  3.0954+.OH2 

+  .OIO 

—  .001  1       o 

.11             .45         .23 

55 

£  Tucanae 

4-4 

14  51.685 

82.7 

+  3.  1549-.  0661 

+  .070 

+  .2723—62 

.09            .46         .15 

56 

Br  16 

5-7 

15  27.070 

61.3 

+  3.  0840  +.0068 

+  .OIO 

—  .0004      o 

.07            .36         .19 

57 

P  Andromeda; 

5-3 

I55I.II2 

69-3 

+  3.  1484+.  0266 

+  .018 

+  .0054      o 

.IO            .48         .22 

58 

ir  Tucanae 

5-6 

16    0.903 

80.4 

+  2.8110—  .0657 

+  .IO2 

—  .0024+    I 

.15            .8l          .28 

59 

i  Sculptoris 

5-5 

16  29.790 

81.8 

+  3.02I2-.OI35 

+  .014 

+  .0033       o 

.07            .48         .15 

60 

TCeti 

Var. 

16  42.616 

96.0 

+  3.0410—  .0082 

+  .OII 

+  .0053      o 

.15          I.O4         .21 

61 

L64 

6.0 

17  12.562 

83.6 

+  2.6003—  .0938 

+  .228 

—  .001  1       o 

.l6            .80         .27 

62 

Br  19 

6.6 

17  14.972 

58-4 

+  3.  0993  +  .0098 

+  .OIO 

+  .0039      o 

.14            .51          .30 

63 

Br  20 

6.7 

17  44-341 

75-4 

+  3-0756-  -0039 

+  .OIO 

+  .0267—   I 

.07             .30         .12 

64 

Pi  56 

7.0 

17  59-838 

74-4 

+  3.042  1  -.0057 

+  .OIO 

+  .0008       o 

•IS        -75      -3i 

65 

L6s 

7.0 

18  12.352 

84.6 

+  3.0082  —  .0146 

+  .015 

+  .001  1          O 

.13        .80      .24 

66 

Groomb  57 

7.0 

18  46.012 

64-3 

+  3.I768+.0333 

+  .024 

.0000      o 

.16        .62      .33 

67 

Groomb  58 

5-6 

18  52.249 

72.4 

+  3.2I2I  +  .043& 

+  •034 

+  .0017       o 

.12            .63         .27 

68 

Br  21 

5-6 

19  16.317 

70.2 

+  3.  2791  +  .0645 

+  .063 

+  .0019      o 

•08           .33         .15 

69 

Pi  60 

6-5 

19  23.044 

71.1 

+  3.0639+.  0015 

+  .OIO 

—  .0030       o 

.IO           .46         .21 

70 

Br  22 

6.9 

19  27.494 

73-5 

+  3.  ion  +  .0104 

+  .OIO 

+  .OOIO          O 

.11            .44         .19 

7i 

Br23 

5-9 

19  41.690 

67.7 

+  3.2253+.  0455 

+.036 

+  -0035       o 

.12            .54         .26 

72 

L7S 

7-i 

19  47.798 

92.2 

+  2.9841  —  .0324 

+  •031 

+  .0572-  7 

.15            .96         .23 

73 

Br2S 

6.0 

20  16.551 

77-7 

+  3-<>739  +  -oo37 

+  .009 

-.0013      o 

.05        .27      .10 

74 

)8  Hydri 

2.8 

20  30.015 

7i-S 

+  3.2208—  .1480 

+.360 

+  .7015-321 

.04           .24        .IO 

75 

Br  26 

7.0 

20  32.538 

65.2 

+  3.  090  1  +  .0068 

+  .OIO 

+  .0028       o 

.08           .40        .20 

76, 

Br  24 

6.9 

2O  42.082 

70.4 

+  3.73o8+.23i9 

+  .600 

+  .0081+   4 

.09           .39         .18 

77 

K  Phcenicis 

4.0 

21    17.165 

82.3 

+  2.96i3-.0237 

+  .O22 

+  .0096  —   I 

.12            .70        .23 

78 

a  Phoenicia 

2-3 

21  2O.55I 

75-8 

+  2.9746—  .0228 

+  .O2  1 

+  .0175-    2 

.10        .39      .16 

79 

Br  29 

6.7 

21   29.662 

72.2 

+  3.0758+.  0028 

+  .009 

+  .0048      o 

.07            .32         .14 

80 

Br3i 

6.8 

22  46.161 

62.7 

+  3.H72+.OI37 

+  .011 

—  .0007       o 

-l8           .58         -33 

to 

Br32 

5-4 

22  50.072 

56.5 

+  3.i2i9+.oi27 

+  .OIO 

+  .0081       o 

.13            .44         .27 

82 

Pi  74 

5-3 

22  5I.I3O 

65-9 

+  3.  2093  +.0342 

+  .024 

+  .0092  +    I 

.12            .57         .28 

83 

77  Sculptoris 

S-o 

22  58.223 

83.6 

+  2.9814—  .0154 

+  .015 

—  .0022      o 

.IO           .64         .20 

84 

Br33 

6-5 

23     0.896 

59-i 

+  3.nio+.on8 

+  .010 

+  .0006      o 

.13           .51         .29 

85 

L99 

5-5 

23  30.686 

854 

+  2.9655  -.0203 

+  .019 

+  .0099-  I 

.12            .62         .20 

86 

Br34 

6-7 

24  29.403 

75-6 

+  3.7600+.  1815 

+  •347 

+  .0954+38 

.08            .51          .19 

87 

PulkH  33 

6.0 

24  45.OOI 

86.1 

+  3.  3204+.  0615 

+  -056 

+  .0042       o 

.12            .84         .23 

88 

Br36 

7.8 

24  47-363 

67.0 

+  3.0784  +.0024 

+  .009 

+  .0103      o 

.13            .48         .24 

89 

Br35 

5-3 

24  50.638 

70.6 

+  3.I562  +  .0207 

+  .014 

+  .0030      o 

.10        .39      .18 

90 

Br38 

6-3 

24  56.112 

76.4 

+  3.  06  1  4  +.0009 

+  .OIO 

+  .0005      o 

.03           .20        .07 

9i 

Pi  91 

5-4 

25  22.703 

81.6 

+  3.0029-.  0095 

+  .OI2 

—  .0026      o 

.08           .50         .16 

92 

L  109 

6.6 

25  34-753 

90.4 

+  2.9400—  .0206 

+  .O2O 

—  .0006      o 

.12           .75         .19 

93 

Br39 

7.2 

25  35-359 

61.8 

+  3.II09+.OII7 

+  .OIO 

—  .0027      o 

.13            .52         .28 

94 

L  no 

5-8 

25  35-787 

81.6 

+  2.9140—  .0270 

+  .O26 

+  .OIl6—     2 

.16           .90         .30 

95 

Br37 

6-3 

25  39-9I7 

72.6 

+  3-4i23+.o844 

+  .095 

+  .0050+  I 

.09           .44         .l8 

96 

Groomb  75 

5-9 

26  12.507 

93-9 

+  3.2643  +.0464 

+  .036 

-.0053-  I 

.13           .57         .16 

97 

A  Cassiopeia;  m 

4-9 

26  15.137 

70.4 

+  3-2875  +  -0497 

+  .040 

+  .0052+  I 

.08           .30        .14 

98 

Br  41 

7-3 

26  23.995 

64.9 

+  3.ii38+.oii8 

+  .OIO 

—  .0010      o 

•15        -57      -30 

99 

X  Phoenicia 

S-o 

26  35.587 

83-3 

+  2.9051  -.0274 

+  .026 

+  .0130—     2 

.14           .64        .22 

100 

/3l  Tucanae 

4.6 

o  26  57.745 

75-8 

+  2.  7  707  -.0443 

+  •055 

+  •0131-  3 

.11            .50        .20 

52  OS  5.     IOM  6"  241°. 

67  Hussey  506'   &<*$  o'fi  217°. 


62227.     i IM  29"  333° 
90  h  322.     IIM  9"  187° 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

K.'  and  i  oo  A  |i 

Prob.  Errors. 
SEp.  100  H.'  Sio 

Remarks. 

51 

o         /            /' 

+  3°  57  42-84 

72.1 

//                    // 

+  20.009—  .035 

tf 

-.18 

it 
-   .003     o 

.13     .64     .28 

52 

+  43  14    8.70 

61.2 

+  20.008—  .035 

-.18 

—   .004    o 

.09        .37        .20 

26  Andromeda  * 

53 

-  9  22  42.03 

77.1 

+  19.976-.  036 

-.16 

-   .032     o 

.04        .19       .07 

54 

+  154145.35 

64.0 

+  20.000—  .038 

-•17 

—   .005    o 

.IO       .40       .21 

40  Piscium 

55 

-65  27  44.79 

82.1 

+  21.171  —  .038 

-.14 

+  1.166    o 

.08        .41        .14 

Parallax  ".14 

56 

+   7  38    5-46 

57-4 

+  20.01  5  -.039 

-.17 

+   .014    o 

.06        .27        .15 

41  Piscium  d 

57 

+  37  24  52.60 

68.4 

+  19.955  -.040 

-.18 

—   .044    o 

.08        .37        .17 

58 

-70  10  48.43 

81.0 

+  19.987  -.037 

-•13 

—   .on     o 

.13        .69       .24 

59 

-2932    4.18 

81.1 

+  19.926—  .040 

-.16 

—   .069    o 

.08        .52       .17 

60 

-203645.36 

96.2 

+  20.013—  .041 

-.16 

+   .019    o 

.17     1.22        .24 

5**2  to  6"3 

61 

-77  S8S3-47 

86.3 

+  19.989-.  037 

—  .IO 

—   .001     o 

.15        .8l        .24 

4  G  Hydri 

62 

+  12  5537-52 

53-o 

+  20.016—  .042 

-•i? 

+   .026    o 

.10     .40     .25 

42  Piscium  * 

63 

-12  45  57.10 

68.6 

+  20.056  -.043 

-.16 

+   .069    o 

.07        .29       .14 

9  Ceti 

64 

-16  29  53.11 

74-6 

+  20.024—  .043 

-.16 

+   .039    o 

.13        .58       .24 

65 

-31  35  26.29 

79-8 

+  19.970-  .043 

-.16 

—   .014    o 

.12        .65        .23 

65  G  Sculptoris 

66 

+  4342  37.17 

57-8 

+  19.965  —  .046 

-.19 

—   -015    o 

.11        .45       .26 

6? 

+  51  27  56.39 

74-6 

+  19.974--  047 

-.19 

—   .005    o 

.09        .49       .20 

* 

68 

+  61  16  37.11 

60.9 

+  19.984—  .049 

—  .20 

+   .008    o 

.O?        .28       .15 

12  Cassiopeiae 

69 

—   2  46  20.18 

74-5 

+  19.938—  .046 

-.16 

-   -037     o 

.09        .42       .l8 

70 

+  1345  40.19 

71.2 

+  19.965  -.047 

-•17 

—   .010    o 

•09     -35     -i? 

43  Piscium 

7i 

+  52  2933.73 

64.7 

+  19.970—  .049 

-.19 

-   .003    o 

.11     .45     .23 

72 

—  51  35  28.00 

87-3 

+  19.712  —  .046 

-.14 

—   .260    o 

.12     .61     .18 

45  G  Phcenicis 

-73 

+   i  23    9.15 

74-o 

+  19.952  -.048 

-•17 

—   .016    o 

.05     .24     .10 

44  Piscium 

74 

-7749    2.56 

72.0 

+  20.290—  .048 

-.19 

+  .323+2 

.04     .25     .10 

Parallax  ".13 

75 

+   78  17.42 

62.5 

+  19.912-.  049 

-•I? 

-   .054    o 

.07     .38     .19 

45  Piscium 

76 

+  79  29  54.48 

68.7 

+  19.970-.  058 

-.29 

+   .005    o 

.08     .32     .15 

77 

-44  14    4.97 

79.0 

+  19.990-  .049 

-«*s 

+   .030    o 

.10     .51     .19 

78 

-42  50  56.77 

71.1 

+  19.559-.  049 

-•15 

—   .401     o 

.08    .31    .14 

-  79 

—  o  36  12.42 

69-3 

+  19.961  —  .051 

-•17 

+   .002    o 

.06    .29    .13 

10  Ceti 

80 

+  18  57  40.08 

58.9 

+  19-934-  -054 

-•17 

—   .014    o 

.13    .46    .27 

46  Piscium 

81 

+  17  20  20.60 

55-4 

+  19.963-.  054 

-•17 

+  .016    o 

.12       .42       .26 

47  Piscium 

82 

+  43  50  28.82 

59-i 

+  19.929-  .055 

-.19 

—   .018    o 

.12       .46       .26 

83 

-33  33  33-63 

80.  i 

+  19.898—  .052 

-•15 

—   .048    o 

.12       .65       .23 

84 

+  15  5331.30 

56-7 

+  19.930-.  054 

-•17 

—   .016    o 

•13       -SO       -30 

48  Piscium 

85 

—  40  28    2.18 

81.1 

+  19.908-.  053 

-•15 

-   -°33     o 

.12        .58       .21 

49  G  Phoenicis 

86 

+  7628    3.85 

77-3 

+  19.916—  .068 

-.27 

—   .016—2 

.07        .49       .l8 

87 

+  5925  29.17^ 

88.2 

+  19.896—  .061 

—  .21 

-   .034    o 

.11        .71        .19 

/3  1094.  9^5  o'.'S  246° 

88 

—   i  40    6.17 

65-8 

+  19.865  -.057 

-•17 

—   .065     o 

.IO        .38       .20 

ii  Ceti 

89 

+  29  12      1.02 

70.7 

+  19.876-.  058 

-.18 

-   -053    o 

.08        -35        .16 

28  Andromedae 

90 

-   4  30  35.61 

75-8 

+  19.921  -.057 

-.16 

—   .007     o 

.03        .21        .08 

12  Ceti  * 

9i 

—  24  20  27.27 

84-7 

+  19.940-  .057 

-.16 

+   .016    o 

.08        .51        .15 

49  G  Ceti 

92 

-41  29  34.45 

88.8 

+  19.936-.  056 

-•15 

+   .014    o 

.10     .65     .17 

51  G  Phcenicis 

93 

•+1529     5.92 

53-4 

+  19.915-.  059 

-.17 

—   .007     o 

.10     .37     .23 

49  Piscium  * 

94 

-48  45  55.86 

83.6 

+  19.804—  .056 

-.14 

-   .118    o 

.14       .99       .30 

53  G  Phcenicis 

95 

+  65  58      2.OI 

65-9 

+  19.917  —  .064 

-•23 

—   .004    o 

.09       .29       .l6 

13  Cassiopeiae 

96 

+  52    17   14.85 

89.6 

+  19.888-.  062 

-.19 

—   .028     o 

.13       .45       .16 

97 

+  5358   12.51 

67-3 

+  19.904  -.063 

—  .20 

—   .012     o 

.08       .26       .13 

* 

98 

+  15   28  10-53 

61.2 

+  19.867  —  .061 

-•I? 

-   .047     o 

•13     -S3     -29 

99 

—  49  21  23.98 

81.0 

+  19.926—  .058 

-•13 

+   .014    o 

.11     .51     .18 

X1 

too 

-63  30  32.80 

75-4 

+  19.854-.  056 

—  .12 

-   .054     o 

.09     .43     .18 

See  /S2,  25"  171° 

93  2  32.     IIM  18"  105° 


97  OS  12. 


o'/6  152°;   slow  binary. 


PRELIMINARY   GENERAL   CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.  and  100  A  \L 

Prob.  Errors. 
aEp.     100  H.     a  10 

M 

h   m        s 

s               s 

S 

a 

//            //          // 

101 

/32  Tucanae  m 

4-6 

o  26  58.405 

76.2 

+  2.7706—  .0444 

+  •055 

+  .0132-   3 

.12             .51          .21 

1  02 

Br44 

5-8 

27  14.154 

69-5 

+  3.  09  1  9  +.0068 

+  .OIO 

+  .0018       o 

.10        .34      .17 

103 

K  Cassiopeiae 

4.2 

27  18.732 

67.6 

+  3-3776  +  -07I2 

+  .070 

+  .0016       o 

.04            .l8          .09 

104 

Br4S 

5-5 

27  20.813 

64-9 

+3-I385  +  -OI44 

+  .OII 

+  .0091       o 

.11             .42          .22 

105 

Br  42 

6.6 

27  21.133 

62.2 

+  3.  5296  +  .  1114 

+  •153 

+  .0096+     2 

.13             .54         .29 

1  06 

Pi  103 

6.7 

27  32.501 

72-3 

+  3.I576+.OI98 

+  .013 

+  .OOIO         0 

.15             .72          .31 

107 

L  123 

5-3 

28  10.471 

72.2 

+  2.7545-.  0438 

+  •055 

+  .OI2O—     2 

•H        -54      -25 

1  08 

6146 

6.7 

28  35.144 

72.7 

+  3-4534  +  -087  1 

+  .098 

+  .OO42  +     I 

.08      .33     .14 

109 

L  125 

5-7 

28  44.307 

81.6 

+  2.9731—  .0126 

+  .014 

—  .0023       o 

.10            .60         .20 

no 

L  127 

7-4 

28  49.781 

79-8 

+  2.9481—  .0161 

+  .016 

—  .0045       o 

.IO            .57          .20 

III 

0  Tucanae 

6.4 

29     8.832 

82.9 

+  2.  5700-  .0570 

+  .096 

+  .0138-   4 

.l6            .75          .26 

112 

Pi  113  m 

7-4 

29  23.423 

66.6 

+  3.  0626  +.OOO9 

+  .OIO 

+  .0055      o 

.12             .51          .25 

"3 

L  133 

7.2 

29  28.418 

89.8 

+  2.9206—  .O2I3 

+  .02  1 

+  .0080—    I 

.12            .70         .l8 

114 

L  137 

5-7 

29  42.382 

83-7 

+  2.  8675  -.0303 

+  .030 

+  .0238-  3 

•13        -75      -24 

"5 

Pi  114 

7-5 

29  54-963 

68.8 

+  3-3152  +  -osoo 

+.039 

+  .0065  +   i 

.12            .58         .27 

1  1  6 

Br  50  m 

5-4 

30     6.O26 

74-4 

+  3.0869+.  0014 

+  .010 

+  .0272       o 

.05            .24         .IO 

117 

Br  51 

6.1 

30  24.761 

76-5 

+  3.  07  7  7  +  .0030 

+  .009 

+  .0086       o 

.07            .30        .12 

118 

Br  49 

5-3 

3034.157 

63-5 

+  3.3158  +  .  0500 

+.039 

+  .O022          0 

.10        .44      .23 

119 

Groomb  99 

5-9 

30  46.103 

77-8 

+  3-3794+  -0644 

+.058 

.0000       o 

.12             .52          .21 

1  20 

L  143 

5-7 

3°  55-03° 

79-4 

+  2.8730—  .0254 

+  .025 

+  .OO42—     I 

.l6            .80         .29 

121 

Pi  124 

5-5 

31  20.198 

67-3 

+  3-2457  +  -0353 

+  .024 

—  .O02I          O 

•13       -54     -27 

122 

£  Cassiopeiae 

3-8 

31  23.790 

76-4 

+3.3199  +  .  0497 

+.038 

+  .0023       o 

.04            .20         .08 

123 

TT  Andromedae 

4-4 

31  32-273 

78.8 

+3-I939+-0244 

+  .016 

+  .0017       o 

.04            .24         .09 

124 

BrS4 

6.0 

3i  34-635 

65-9 

+  3.i2O3  +  .on6 

+  .OIO 

—  .0001       o 

.10        .46      .23 

«5 

Pi  128 

5-7 

3i  59-799 

70.2 

+  3.20i6  +  .0259 

+  .016 

—  .0002      o 

-IS        -84      -37 

126 

Br  48 

6-7 

32  12.456 

72.4 

+  4-3422  +  .3S53 

+  1.306 

-.0523-32 

.06        .32      .13 

127 

Pi  130  m 

5-9 

32  12.524 

83.8 

+  3.0860—  .0104 

+  .OI2 

+  .IO22—     5 

.06        .32      .10 

128 

Pi  131 

6.7 

32  21.530 

74-o 

+  3.0877  +  .0050 

+  .009 

+  .0069       o 

.09        .51      .20 

I2Q 

BrS5 

7.2 

32  57.721 

78.8 

+  3.  065  2  +  .003  2 

+  .009 

—  .0036      o 

.06            .33          .12 

130 

t  Andromedae 

4-5 

33  l6-i59 

72.8 

+  3.i6i2  +  .o2o8 

+  .014 

--OI73-     I 

.04        .24      .10 

131 

Groomb  113 

5-8 

33  38-137 

83-4 

+3.2970+.  0423 

+  .030 

+  .0014       o 

.12            .48         .17 

132 

8  Andromedae 

3-4 

33  58-727 

75-4 

+  3.I985  +  .0224 

+  .014 

+  .0107       o 

.05            .26         .IO 

133 

BrS8 

6.1 

34    9-556 

64-7 

+  3-H44+.OI5I 

+  .OII 

—  .0330-     2 

.10        .34      .19 

134 

Br  60 

5-6 

34  39-632 

57-2 

j+3.i5ii  +  .oi56 

+  .OII 

+  .0019       o 

.14            .46         .28 

135 

a  Cassiopeiae 

Var. 

34  49-746 

65-9 

+  3-3783  +  -o56i 

+  .045 

+  .0061+    I 

.03            .12         .06 

136 

L  166 

6.2 

35    5-975 

84.6 

+  2.8691—  .0220 

+  .O22 

+  .0031       o 

.12            .87         .25 

137 

Pi  146 

6-3 

35  36-884 

73-i 

+  3-0532  +  -0014 

+  .009 

—  .0014      o 

.IO           .40         .18 

138 

Br  61 

5-5 

35  41-829 

60.4 

+  3-2392  +  .0302 

+  .019 

—  .0005       o 

.12             .44         .25 

139 

L  172 

6.0 

35  44-412 

81.2 

+  2.8282-.  0387 

+  .041 

+.1156-18 

.16            .78         .28 

140 

Pi  148 

6-3 

36  17-658 

80.6 

+  3-I742  +  .OI79 

+  .OI2 

+  .0077      o 

.IO            .68         .22 

141 

£  Cassiopeiae 

S-o 

36  29.062 

73-3 

+  3.3266+.  0447 

+  .032 

+  .OO2I          O 

.09      .32     .14 

142 

/i  Phcenicis 

4-7 

36  36.066 

80.6 

+  2.8446—  .0226 

+  .023 

—  .0027      o 

.12            .72          .24 

143 

t  Phcenicis 

6.0 

37  12.900 

82.6 

+  2.7491-.  0319 

+  •035 

+  .0101—     I 

.16            -75         .26 

144 

Li83 

6-3 

37  54-292 

80.9 

+  2.8942—  .0170 

+  .017 

+  .OOOI          O 

.13            .64         .23 

145 

TT  Cassiopeiae 

5-2 

37  55-857 

64.8 

+  3.301  7  +  .0395 

+  .027 

—  .0025       o 

.10           .40        .21 

146 

p  Tucanae 

5-6 

38   I2.O22 

85.8 

+  2.5817—  .0408 

+  .0S6 

+  .0078-  I 

.13             .69         .21 

147 

£Ceti 

2.O 

38  34-225 

68.9 

+  3.0133-.  0054 

+  .OII 

+  .0160       o 

.03            .15         .07 

148 

i)  Phcenicis 

4.6 

38  5I-667 

81.6 

+  2.7104—  .0318 

+.036 

—  .0009       o 

.13            .63         .22 

149 

Br  68 

5-8 

38  52.855 

83-9 

+  3-3J46+.0409 

+  .028 

—  .0024       o 

.13            .45         .18 

150 

Br  66 

5-7 

o  39    2.276 

80.8 

+  3.8807  +  .  1649 

+.279 

-.0053-     2 

.04           .24        .08 

ioi  Innes  260.     5^o-6"Co  o"j  300°. 
no  h  3375.     9^2  6"  165°. 


102X36. 
112239. 


o"  45. 


CATALOGUE  OF  6l88  STARS  FOR  IQOO 


Ho. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3dt 

HI'  and  100  AH 

Prob.  Errors. 
SEp.  100  (*'  8  10 

Remarks. 

Of                 If 

//           // 

„ 

„ 

„         „       „ 

101 

-63  3059-95 

76.6 

+  19.846—  .056 

—  .12 

—  .062       o 

.10      .44    .18 

See  p  * 

102 

+  6  24  11.52 

59-8 

+  19.918—  .062 

-•17 

+  .012          0 

.09      .30    .18 

51  Piscium  * 

103 

+  62  22  47.67 

69.1 

+  19.906—  .067 

—  .21 

+  .001          0 

.04      .17    .08 

104 

+  194436.47 

70.7 

+  19.852-.  063 

-•17 

—  .052       o 

•09      -36    -17 

52  Piscium 

105 

+  702547.89 

65.8 

+  19.907—  .070 

-.24 

+  .003      o 

.12         .51      .26 

1  06 

+  27  43  40.87 

65-0 

+  19.908—  .064 

-.18 

+  .006      o 

.IO         .46      .23 

OS  14.     IIM  9"  160° 

107 

-63  34  56-01 

74-6 

+  19.857-.  058 

—  .12 

-  -039      o 

.12         .51      .22 

54  G  Tucanae 

1  08 

+  66  ii  55.88 

71.4 

+  19.894—  .071 

-.24 

+  .003      o 

.06         .28      .13 

1  6  Cassiopeiae 

109 

-3°    6  33-47 

84.1 

+  19.861—  .063 

"•IS 

—  .028      o 

.10      .58    .18 

77  G  Sculptoris 

no 

-3532  22.34 

75-i 

+  19.367—  .062 

-•IS 

—  .521      o 

.11         .63      .25 

78  G  Sculptoris  * 

III 

-7149    3.21 

82.9 

+  19.873-.  056 

-.09 

—  .012       o 

.13         .65      .22 

-112 

-   5    5  53-46 

66.2 

+  19.885-.  066 

-.16 

+  .003      o 

.IO         .39      .20 

* 

"3 

-42  58  59-98 

88.9 

+  19.904—  .063 

-.14 

+  .023       o 

.10      .63    .17 

56  G  Phcenicis 

114 

-525532-39 

82.2 

+  19.904-  .063 

-•13 

+  .025      o 

.10         .60      .20 

58  G  Phcenicis 

"5 

+  5339    8.50 

65-7 

+  19.890—  .071 

—  .20 

+  .014      o 

.14         .55      .28 

-116 

-  4    8  36.13 

73-o 

+  19.856-  .068 

-.16 

—  .018       o 

.05      .23    .10 

13  Ceti  * 

117 

-    i    3  18.24 

71.1 

+  19.810—  .068 

-.16 

—  .061       o 

.07         .30      .14 

14  Ceti 

118 

+  5337    3-Si 

60.6 

+  19.877-.  073 

—  .20 

+  .007      o 

.IO         .40      .22 

iig 

+  594631.55 

71.8 

+  19.865-.  074 

—  .22 

—  .001       o 

.IO         .45      .20 

120 

-4832  57.45 

79-3 

+  I9-747~-o65 

-•'3 

-.118      o 

.12         .75      .26 

59  G  Phcenicis  \2 

121 

+  43  56  12.81 

60.2 

+  19.886-  .073 

-.19 

+  .026       o 

.12         .45      .25 

122 

+  53  2047.57 

72.7 

+  19.850-  .074 

—  .20 

—  .009      o 

.04         .18      .08 

"3 

+  33  10    7.61 

74-9 

+  19.848—  .072 

-.I9 

—  .009      o 

.05      .24    .10 

W.H.     8»s  36"  173° 

124 

+  14  40  52.52 

62.2 

+  19.829—  .071 

-•17 

—  .028       o 

.10         .38      .21 

53  Piscium 

125 

+34  5°  57-86 

59-8 

+  19.871-.  073 

-.19 

+  .019      o 

.12         .46      .26 

126 

+  81  56  29.93 

71.9 

+  19.940—  .096 

-•47 

+  .091+  I 

.06         .24      .11 

127 

-25  19    3-i4 

88.4 

+  19.840-  .073 

-•15 

—  .009—     2 

.06      .38    .10 

* 

128 

+   2  35  11.36 

75-3 

+  19.784—  .071 

-•i? 

-  .063       o 

.09         .52      .20 

129 

-    i    3  12.52 

72.1 

+  19.834-  .072 

-.16 

—  .006      o 

.06         .26      .12 

15  Ceti 

130 

+  2846    7.60 

74-5 

+  19.588-  .075 

-.18 

—  .248      o 

.04         .28      .11 

131 

+  48  48  17-63 

80.7 

+  19.818—  .079 

—  .20 

-.013      o 

.11         .42      .16 

02  16.     IIM  14"  23° 

132 

+  30  18  49.54 

73-4 

+  19.741-.  077 

-.19 

-  .086      o 

.04         .22      .09 

133 

+  20  42  39.60 

59-9 

+  19.450-  .075 

-.18 

-•375+   i 

.09         .31      .18 

54  Piscium 

134 

+  20  53  22.91 

54-2 

+  19.780—  .078 

-.18 

-  .038      o 

.11         .40      .25 

55  Piscium  * 

135 

+  55  59  20.15 

63-4 

+  19.785-.  083 

—  .22 

-.031       o 

.02         .11      .06 

2M2   tO   2*|I8 

136 

-45  2047.15 

81.7 

+  19.788-  .074 

-.14 

—  .024      o 

.IO         .63      .20 

63  G  Phcenicis 

137 

-   4  54    2.34 

70.6 

+  19.795-.  077 

-.!6 

—  .010      o 

.08         .32      .15 

138 

+  38  54  34.90 

52-5 

+  19.800—  .082 

-.19 

—  .004       o 

.12         .41      .26 

32  Andromedae 

139 

—  60    o  58.71 

78.8 

+  20.250—  .074 

—  .11 

+  .446—     2 

.13         .63      .24 

60  G  Tucanae 

140 

+  24    450-24 

79.1 

+  19.772—  .082 

-.18 

—  .024      o 

•09      -54    -19 

141 

+49  57  50-39 

68.6 

+  19.786-  .085 

—  .21 

—  .007       o 

.09      .26    .14 

142 

-4638    2.79 

79-2 

+  19.766-  .074 

-•13 

—  .026      o 

.09         .57      .20 

143 

-57    3    5-7o 

79-5 

+  19.821—  .074 

—  .12 

+  .038      o 

.13         .6l      .23 

h  3387.     IOM  13"  253° 

144 

-39    041.53 

79-o 

+  19.772-.  078 

-.14 

—  .001       o 

.12         .56      .21 

83  G  Sculptoris  X1 

145 

+  46  28  39.52 

57-8 

+  19.746—  .088 

—  .20 

—  .027       o 

.10        .35      .21 

146 

—  66    i    2.94 

87.6 

+  19.816—  .071 

—  .IO 

+  .047      o 

.11         .71      .19 

147 

-1832    7.79 

68.2 

+  19.803—  .082 

-•15 

+  .039      o 

.03        .16     .07 

148 

-S8    041.38 

78-4 

+  19.766—  .075 

—  .11 

+  .007       o 

.IO        .42      .17 

h  3391.     IIM  20"  218° 

149 

+  47  18  57.73 

80.2 

+  19.768—  .090 

—  .20 

+  .009       o 

.12        .46     .l8 

ISO 

+  74  26  29.24 

79-7 

+  19.733-.  104 

-•33 

—  .024       o 

.04        .24     .08 

21  Cassiopeiae 

116  Hough  212.     slyl9-6'!/l6  o'/3  261° 


binary. 

134  2  46. 


I27  ft  395-     6N6-61"1;  <  i";  rapid  binary. 


7"  192° 


8 


PRELIMINARY   GENERAL   CATALOGUE   OF   STARS   FOR   IQOO 


Ho. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

p.  and  100  A  (i 

Prob.  Errors. 
aEp.      I00)i      aio 

M 

h    m        s 

s               s 

s 

s 

//                 //               // 

I5i 

Br  71 

5-o 

039     8.744 

71.4 

+  3.0271—  .0016 

+  .OIO 

—  .0004       o 

.12            .48          .22 

152 

o  Cassiopeia 

4-9 

39    8-979 

85.3 

+  3-3246+.o4i6 

+  .029 

+  .OO22          0 

.05       .32     .09 

153 

L  192 

6.1 

39  22.063 

90.1 

+  2.9070—  .0171 

+  .017 

+  .0195-     I 

.11        .70      .18 

154 

Pi  162 

5-5 

39  35-107 

71.6 

+  3-3935  +  -054I 

+  .042 

—  .0029       o 

.11             .48         .21 

155 

Pi  166 

5-4 

39  47-SSi 

86.5 

+  2.9730-  .0073 

+  .OI2 

-  .0034      o 

.10        .75      .20 

156 

Pi  171 

6.7 

40  18.668 

67.4 

+  3-°53I  +  -o°I5 

+  .009 

+  .0020      o 

.15       .60     .30 

157 

Br73 

6-3 

40  27.347 

68.b 

+  3.0136—  .0026 

+  .OIO 

—  .0027      o 

.10        .38      .19 

158 

L  207 

6.0 

41    4.187 

91.2 

+  2.8246—  .0232 

+  .024 

+  .0178—     2 

.14           .75         .20 

159 

Br  72 

5-5 

41    5.108 

72-9 

+  3.9246+.  1663 

+  •275 

+  .0044+     I 

.08     .33    .15 

160 

L  203 

5-8 

4i  13-593 

88.4 

+  2.9842—  .0076 

+  .OI2 

+  -OI37-     I 

.10            .8l          .20 

161 

Br?5 

5-8 

41  18.864 

55-4 

+  3.i336+.oi22 

+  .OIO 

—  .0026      o 

•IS        -54      -33 

162 

Br  76 

5-7 

41  48.402 

71.4 

+  3.  1248  +  .  0103 

+  .009 

+  .0033       o 

.10        .39      .18 

163 

Br77 

6-3 

4i  56-457 

67-3 

+  3.i627  +  .oi49 

+  .OII 

+  .0065      o 

.12             .52          .25 

164 

£  Andromedae 

4-2 

42    2.184 

79-5 

+  3.i72i  +  .oi8o 

+  .012 

—  .0074      o 

.04            .22          .08 

165 

Br8o 

6-3 

42  I3-2S4 

60.8 

+  3.  0998  +  .0074 

+  .009 

+  .0009       o 

.10        .42      .23 

166 

Pi  181 

7-5 

42  19.216 

69-4 

+  3-3737  +  -0473 

+  •033 

—  .0006      o 

.16            .46         .25 

167 

Br8i 

6.8 

42  36.501 

66.5 

+  3.i756+.ois8 

+  .OII 

+  .0115      o 

.15             .54         .28 

168 

17  Cassiopeia  c.g 

3-6 

43    2.853 

67.8 

+  3-S998  +  .0649 

+  .050 

+  .1390+17 

169 

L  218 

5-5 

43    4-I72 

92.0 

+  2.9710—  .0069 

+  .OII 

+  .0009       o 

.IO            .72          .l6 

170 

Br  84 

6.2 

43    6.050 

67.6 

+  3.  1090+.  0078 

+  .009 

+  .0071       o 

.14            .50         .25 

171 

Pi  189 

6.0 

43    8.185 

73-9 

+  3.i432  +  .oo65 

+  .009 

+  .0500—    I 

.07             .32          .13 

172 

v  Cassiopeia 

5-o 

43    9-8°6 

74-2 

+  3-3785  +  -0467 

+•033 

+  -0035      o 

.09            .36         .l6 

173 

8  Piscium 

4-6 

43  29.595 

73-8 

+  3.  1  090  +.0080 

+  .009 

+  .0055       o 

.04           .21         .09 

174 

Br  86 

5-3 

43  43-285 

65.4 

+  3.i455  +  .oi32 

+  .OIO 

—  .0014       o 

.13            .58         .29 

175 

v  Andromedae 

4.6 

44  I7-786 

77-9 

+  3-2935  +  -0329 

+  .02O 

+  .0017       o 

•07        -34      -13 

176 

L  226 

6-5 

44  18.344 

76.8 

+  2.79I5-.02I5 

+.023 

—  .0031       o 

.16        .78      .31 

177 

Pi  198 

6.0 

44  24.222 

77-6 

+  3.0148—  .0028 

+  .OIO 

+  .0071       o 

.14        .78      .29 

178 

Br  88  m 

5-7 

44  30.822 

78.2 

+  3.2ii6+.o2o6 

+•013 

+  .0069      o 

.10        .33      .14 

179 

Br82 

5-7 

44  39.284 

85.8 

+  3.  6007  +  .0837 

+.082 

+  .0047+  I 

.07        .66      .17 

1  80 

Pi  196 

6.4 

44  43  -OS1 

67.0 

+  3-333I  +  -0378 

+  .024 

+  .0065  +   I 

.18        .58      .31 

181 

Br  89 

5-4 

45    7.076 

76.4 

+  3.  0047  -.00  1  2 

+  .010 

—  .0160       o 

.07            .28         .12 

182 

XHydri 

5-i 

45    7-273 

78.8 

+  2.  0993  -.0367 

+.074 

+•0355-13 

.08            .64         .22 

183 

Pi  199 

6.6 

45  13-892 

74-8 

+  3.  4090+.  0482 

+•033 

+  .0135+     2 

.14            .52          .23 

184 

L  231 

6.9 

45  22.631 

87.4 

+  2.8182—  .0190 

+  .O20 

—  .0008      o 

.14        .86      .24 

185 

Br74 

5-7 

45  29-70- 

72-3 

+  5.302-  +.602- 

+.031  -+24 

.07        .32      .14 

1  86 

Pi  203 

6.4 

45  Si-31? 

73-5 

+  3-3994+-°48i 

+•034 

-.0013      o 

.15        .57      .26 

187 

p  Phoenicis 

5-4 

46    8.068 

84-5 

+  2.  7415-.  0243 

+  .026 

+.0055-  I 

.12             .63          .20 

188 

Br  91 

6.7 

46    9.285 

77-2 

+  3.0863  +  .0059 

+  .009 

+  .0007       o 

.11             .69         .25 

189 

Br  90 

5-i 

47    5-828 

73-9 

+  3.  5460+.  0722 

+  .064 

—  .0098—    I 

.09            .38          .l6 

IQO 

L238 

5-7 

47  46.076 

92-3 

+  2.9474-  .0077 

+  .OI2 

+  .0014       o 

.11             .92          .20 

IQI 

Br93 

S-o 

47  53-786 

68.8 

+  3.0638+.  0037 

+  .009 

—  .0004      o 

.05            .24         .11 

192 

Pi  211 

6-5 

48    1.199 

76.4 

+  3.4394+.  0509 

+  .036 

+  .0094+  I 

.16            .54         .24 

193 

Br  94 

5-i 

49    3-741 

61.4 

+  3-5306  +  -0660 

+  -054 

—  .0038—    I 

.10        .42      .23 

194 

Br  98 

6.6 

49  14.868 

70.0 

+  3.0274—  .0001 

+  .OIO 

+  .0016       o 

.13            .62         .28 

195 

Br  96  m 

6.0 

49  17.486 

74-6 

+  3.i702  +  .oi5o 

+  .OIO 

+  .0016       o 

.09           .34         .15 

I96 

L  253 

5-8 

49  28.259 

81.6 

+  2.5086—  .0321 

+  .041 

+  .0082-     2 

.15            .69         .25 

197 

Br  97  m 

5-6 

49  36-721 

74.8 

+  3.2047  +  .oi8o 

+  .OII 

+  .OIOO          0 

.09           .45         .18 

198 

Br  100 

6.2 

50  35-696 

68.4 

+  3-2I92  +  .O2O6 

+  .OI2 

—  .0001       o 

.11            .60         .27 

199 

•y  Cassiopeia 

2.O 

50  40.148 

73-8 

+  3-5875  +  -0723 

+  .061 

+  .0040+   I 

.03            .16         .O? 

200 

Pi  226 

4-9 

o  50  42.308 

64-3 

+  3.  5420+.  0668 

+  •055 

—  .OIl6—     2 

.12            .54         .28 

158  Harv.     7*3     14"  307° 


178261.     6*4-6*4  4'.'S  "7° 


190/8734.     8«S  n"  346°. 


CATALOGUE   OF   6l88    STARS   FOR   1 900 


No. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3"t 

X 

^  and  i  oo  AH 

Prob.  Errors. 
SEp.  loop'  Sio 

Remarks. 

151 

o           /         // 

-II   915.17 

68.3 

It                      It 

+  19.645-.  083 

-.16 

// 
—  .no      o 

•°9      -33    -1? 

17  Ceti  <f>  1 

152 

+  47  44  13.53 

80.0 

+  I9-750-  -091 

—  .20 

-.005      o 

.06      .25    .09 

£231.     1  2"  33"  303° 

153 

-38  58  21.68 

85-4 

+  19.868  -.08  1 

-.14 

+  .116      o 

.11      .56    .18 

84  G  Sculptoris  \2 

154 

+  54  40  26.26 

68.6 

+  19.739-  .094 

—  .22 

—  .009      o 

.11      .40    .20 

/3  492.     i2M  2"  152° 

155 

-22  33  21.44 

87.! 

+  19.832-.  083 

-•IS 

+  .087      o 

•09      -55    -i5 

73  G  Ceti 

-156 

-   5  1°  38-83 

68.7 

+  19.769—  .086 

-.16 

+  .Q3J      o 

.12      .51    .24 

157 

-13  25  20.13 

69.4 

+  I9-539-  -086 

-.16 

—  .196      o 

.09      .34    .17 

18  Ceti 

158 

-48    6    4.23 

89.6 

+  19.807—  .082 

—  .12 

+  .081      o 

.11      .64    .17 

72  G  Phoenicia* 

159 

+  7418    4.74 

69.4 

+  19.714—  .110 

-•34 

—  .012          O 

.08      .27    .13 

23  Cassiopeiae 

1  60 

-23    4    7-39 

88.9 

+  19.722—  .087 

-•15 

—  .001      o 

.11         .90      .22 

161 

+  1455  48.16 

56.1 

+  19.670—  .090 

-.18 

-.052       o 

•14      -55    -33 

57  Piscium 

162 

+  11  25  42.24 

70.8 

+  19.684—  .091 

-•17 

-  .030      o 

.08     .34    .16 

58  Piscium 

163 

+  19    iSS-72 

66.1 

+  19.721—  .092 

-.18 

+  .009       o 

.10      .48    .23 

59  Piscium 

164 

+  23  43  23.35 

73-4 

+  19.63  1  -.093 

-.18 

—  .080      o 

.04         .21      .09 

165 

+  6  ii  42.33 

61.4 

+  19.698—  .091 

-•i? 

—  .010      o 

.09         .42      .22 

60  Piscium 

166 

+  5053  56.63 

53-6 

+  19-705  --°99 

—  .21 

—  .001       o 

.12         .36      .24 

5  59.    8M5  2"  147° 

167 

+  2O  22  44.24 

62.2 

+  19.711—  .094 

-.18 

+  .OIO         0 

.12         .49      .26 

61  Piscium 

168 

+  57  i7    5-53 

64.9 

+  19.172—  .in 

-.24 

-•522-   5 

See  Appendix 

169 

—  22   l6      5.27 

90.0 

+  19.698—  .089 

"•IS 

+  .004      o 

.10      .77    .18 

79  G  Ceti 

170 

+    645    14.12 

63-7 

+  19.701  -.093 

-•17 

+  .008       o 

.12         .42      .23 

62  Piscium 

-171 

+  4  45  59-14 

69-3 

+  18.549—  .096 

-•17 

-1.144-1 

.06        .26      .12 

172 

+  50  25  21.78 

65-3 

+  19.681—  .101 

—  .21 

—  .on      o 

.09        .30     .16 

173 

+   72  27.00 

75-i 

+  19.643  -.094 

-•17 

—  .044      o 

.04        .20     .08 

174 

+  16  24    2.58 

61.5 

+  19.480-  .095 

-.18 

-  .203      o 

.13         .51      .28 

64  Piscium 

175 

+  4032    3-37 

68.8 

+  19-653-  -101 

—  .20 

—  .021      o 

.06         .24      .12 

176 

-47  I437-" 

77-5 

+  19.693—  .086 

-•13 

+  .020         0 

.13         .71      .26 

73  G  Phoenicis 

177 

—  14    6  13.28 

77-4 

+  19.585-.  093 

-.16 

—  .087       o 

.12         .64      .24 

P  1160.     12"  i'.'3  117° 

178 

+  27    956.84 

70.7 

+  19.663  -.099 

-.19 

—  .007       o 

.08         .28      .14 

65  Piscium  i  * 

179 

+  63  42  11.38 

79-4 

+  19.668—  .no 

-.26 

ooo      o 

.07         .39      .14 

180 

+  44  27  25.61 

60.6 

+  19.663  -.103 

—  .20 

-  .003      o 

.15         .48      .28 

181 

—  ii  10  58.51 

73-i 

+  I9-435-  -°94 

-.16 

-.225       o 

.07         .29      .13 

19  Ceti  <£» 

182 

-75  28    4.00 

78.5 

+  19.644—  .069 

-•05 

—  .016—    I 

.07         .54      .18 

183 

+  5057  48.22 

68.4 

+  19.656-.  105 

—  .22 

—  .002       o 

.13         .44      .22 

184 

-43  56  24.72 

80.7 

+  19.666—  .089 

-•13 

+  .OII          O 

.12         .64      .22 

74  G  Phoenicis 

185 

+83    952-39 

70.7 

+  19.643—  .162 

—  .010  I 

.08         .28      .13 

186 

+  51    i  38.64 

66.2 

+  19.635-.  107 

—  .22 

—  .012       o 

.14         .47      .25 

187 

-Si  3i  57-44 

84.7 

+  19.680-  .088 

—  .12 

+  .038       o 

.10      .58    .18 

^188 

-   2  50  32.42 

68.4 

+  19.556-  .098 

-•17 

-  .086      o 

•ir      -53    -25 

189 

+  603432.58 

65-3 

+  19.799-.  114 

-•25 

+  .174      o 

.08      .28    .15 

190 

-2433    i-52 

88.7 

+  19.645  -.097 

-•15 

+  .032      o 

.11      .97    .23 

88  G  Ceti* 

191 

-    i  41  14-44 

65-7 

+  19.595-.  101 

-.16 

—  .016      o 

.05         .21      .IO 

20  Ceti 

192 

+  52    848.23 

56.6 

+  19.582-.  113 

—  .22 

—  .026      o 

.15         .43      .28 

S  70.     IOM  8"  244° 

193 

+  58  25  52.88 

62.9 

+  19.545—  .118 

-•25 

—  .044      o 

.10      .43    .23 

26  Cassiopeiae  v* 

194 

-   9  16  55.53 

66.6 

+  I9-539-  -!°2 

-.16 

-  .047      o 

.10      .38    .19 

21  Ceti 

195 

+  1838  45.74 

72.8 

+  19.572-  .107 

-.18 

-.013       o 

.08     .31   .14 

66  Piscium  * 

196 

-63  24  51.66 

83-4 

+  I9.57I-.  087 

-.09 

—  .Oil         O 

.13         .67      .22 

69  G  Tucanas  (X1) 

197 

+  23    5-12.33 

77.0 

+  19.546-.  109 

-.18 

-  -033       o 

.07         .40      .15 

36  Andromedae  * 

198 

+  26  40    1.76 

66.2 

+  19.566—  .III 

-.19 

+  .006       o 

.11         .48      .24 

67  Piscium  k 

199 

+  60  10  3  LOOK 

69.1 

+  I9-557--i23 

-.26 

—  .002          0 

.03         .I?      .08 

£1028.     IIM  2"  257° 

200 

+583826.76 

61.2 

+  19.516—  .121 

-•25 

—  .042       o 

.11         .47      .25 

28  Cass.  v.2  Br  3224 

195  OS  20.     6"JI3— 7*|I4  <  i";  binary. 


197  2  73.     6™i-6"7  i'/S±  !  binary,  140  yrs.  ±. 


10 


PRELIMINARY   GENERAL  CATALOGUE  OF  STARS   FOR   IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

P  and  100  A  p 

Prob.  Errors. 
aEp.      IOO|1     aio 

M 

h    m         s 

a               s 

S 

s 

//            //         it 

201 

Groomb  184  m 

5-8 

o  50  45.314 

73-6 

+  3-5824+.07I2 

+  .059 

+  .0052+  I 

.13         .70      .29 

2O2 

Br  103 

5-6 

51      0.630 

81.4 

+  3.0090—  .0012 

+  .OIO 

—  .0017       o 

.07         .48      .16 

203 

/A  Andromeda: 

3-9 

51  12.016 

78.0 

+  3-3i62  +  .o309 

+  .018 

+  .0128+     I 

.03            .20         .07 

2O4 

X  Tucanae 

5-5 

51  16.188 

83-2 

+  2.2524—  .0325 

+  •055 

—  .0023       o 

.14            .70         .23 

205 

L259 

6.9 

51  27.240 

81.9 

+  2.6676—  .0244 

+  .027 

+  .0008      o 

.15            .75          .26 

2O6 

r)  Andromeda 

4.6 

Si  5I-87S 

65.4 

+3.i958  +  .oi79 

+  .OII 

-.0031       o 

.11             .57          .27 

207 

L  257 

7-5 

5i  56.545 

88.4 

+  2.9300—  .0081 

+  .OI2 

+  .0035       o 

.14         1.02          .26 

208 

Groomb  192 

6.1 

52  10.971 

74-7 

+  3-75I2  +  .0978 

+  .IOI 

+  .0072+     2 

.10        .63      .24 

2og 

Br  105 

5-7 

52  25.321 

68.4 

+  3-2374+.022I 

+  •013 

+  .0009       o 

.11             .52          .24 

210 

Pi  243 

6-5 

52  39-576 

77-5 

+3.i427  +  .oii8 

+  .009 

—  .0008      o 

.IO            .46          .l8 

211 

Br  106 

6.0 

53  43-454 

71.0 

+  3.0050—  .0010 

+  .009 

—  .0018       o 

.11             .48          .22 

212 

a  Sculptoris 

4-4 

53  47-289 

83-3 

+  2.8942—  .0099 

+  .012 

+  .0006       o 

.05             .28          .09 

213 

L  272 

7-3 

54    0.289 

87.8 

+  2.3268-  .0304 

+  .045 

—  .0069+     I 

.l8            .87          .26 

214 

L  271 

6.6 

54  12.871 

81.0 

+  2.5069—  .0283 

+  •035 

+  .OO5I—     I 

.l6            .72          .27 

215 

Pi  251 

8-3 

54  15-783 

80.8 

+  3.  0706  +.0050 

+  .009 

-.0031       o 

.14           .54         .21 

216 

Groomb  205 

6.4 

54  23.762 

58.4 

+  3.  3804  +.0385 

+  .024 

+  .0028      o 

.15        .68      .38 

217 

Br  107 

6.4 

54  38.599 

76.4 

+  3.1066  +  .  0079 

+  .009 

+  .0014      o 

.08        .38      .15 

218 

Br  92 

4.6 

55    1-57- 

73-8 

+  7.396.  +1.482. 

+  .077.  +96 

.04        .16      .07 

219 

Br  65 

6.8 

55  36-82. 

62.1 

+  i5.4i6.  +  9-9i3. 

+.180.  +607 

.07        .24      .13 

22O 

L  274 

7-3 

55  52.545 

94.4 

+  2.8359-  .0133 

+  •015 

+  .0047       o 

.13         I.I4         .22 

221 

$  Sculptoris 

5-7 

56  38.056 

92.4 

+  2.8119—  .0147 

+  .OI6 

+  .0086       o 

.14         I.  II         .24 

222 

Br  no 

8.0 

56  54.788 

69.2 

+3.n65  +  .oo88 

+  .009 

+  .0015      o 

.09            .45          .20 

223 

Br  108 

6.1 

57  16.938 

64.2 

+  3-3559+-0344 

+  .020 

—  .0019       o 

.14            .40         .23 

224 

<r  Piscium 

5-6 

57  20.376 

78.4 

+  3-275I  +  -o248 

+  .014 

+  .0018       o 

.IO            .38         ,l6 

225 

<r  Sculptoris 

5-7 

57  39-936 

81.2 

+  2.8698—  .0107 

+  .013 

+  .0061       o 

.11            .64        .22 

226 

t  Piscium 

4-S 

57  45-139 

75-9 

+  3.  1099+.  0088 

+  .009 

-  .0054       o 

.02            .15         .06 

227 

o)  Phcenicis 

6-3 

57  48-158 

83.0 

+  2.  5487-.  0247 

+  .030 

+  .0006      o 

.12            .70         .23 

228 

Br  115 

5-9 

57  59-038 

68.0 

+  3-°333  +  -oo23 

+  .009 

—  .0076      o 

.12            .48         .23 

229 

L  289 

5-5 

58  18.852 

82.7 

+  2.7116—  .0185 

+  .O20 

—  .0007      o 

•15           -75         -25 

230 

Br  116 

6.2 

58  40-174 

76.6 

+  3.085  1  +  .0054 

+  .009 

+  .0079       o 

.O6            .32          .12 

231 

Groomb  232 

6.9 

58  58.881 

57-5 

+  3-3596+-033I 

+  .019 

+  .0073       o 

.16        .68      .39 

232 

Br95 

6.6 

59    6.10. 

71.4 

+  8.891.  +2.337. 

+  .059.  +86 

.08        .28      .14 

233 

Br  1  20 

6-3 

59  41-706 

72.1 

+  3.io52  +  .oo77 

+  .009 

+  .OO2O         0 

.11        .40      .19 

234 

Br  119 

5-9 

o  59  48-519 

76-9 

+  3-i6o7  +  .oi29 

+  .009 

—  .0002      o 

.10        .51      .20 

235 

•Br  121 

5-5 

i    o  19.166 

63-4 

+  3.209i  +  .oi7i 

+  .OIO 

+  .0037       o 

.13        .46      .25 

236 

Br  122 

5-8 

i    o  19.916 

76-5 

+  3-2o82  +  .oi7o 

+  .OIO 

+  .0028      o 

.15        .62      .26 

237 

Br  126 

6.6 

o  36.265 

64-9 

+  3.0047     .0000 

+  .009 

—  .0028      o 

.13        .48      .25 

238 

Br  124 

6.4 

o  38-745 

71.4 

+  3.ioo3  +  .oo73 

+  .009 

+  .OOI2         0 

.10        .45      .20 

239 

Br  109 

6-5 

o  39-524 

76.4 

+  4.9432  +  .3481 

+.834 

—  .0114—   8 

.10           .57         .22 

240 

Br  125 

7-4 

o  40.890 

78.4 

+  3-0998+.0073 

+  .009 

+  .0007       o 

.12            .63         .23 

241 

Br  123 

6.8 

o  41.024 

65-2 

+  3.2883  +  .0253 

+  .014 

+  .0004      o 

•13        -54      -27 

242 

Br  128 

5-8 

I   4.114 

72.0 

+  3.0100+.  oooi 

+  .009 

+  .OO2I         0 

.11            .46         .21 

243 

Br  127 

6-3 

I  17.891 

75-2 

+  3.i5ii  +  .on8 

+  .009 

+  .OOIO         O 

.11            .45         .19 

244 

/*  Cassiopeiae 

5-4 

I  36.812 

61.4 

+  3.  9608  +  .0660 

+  .040 

+.3921+35 

.05            .21         .12 

245 

ft  Phoenicis  m 

3-3 

1  37-333 

67.6 

+  2.6840—  .0179 

+  .O2O 

—  .0042       o 

.10        .39      .19 

246 

Br  129 

5-i 

2  16.239 

68.2 

+  3.4268  +  .  0385 

+  .022 

+  .0152+  I 

•09        -33      -17 

247 

Groomb  244 

6.0 

2  25.715 

82.3 

+  3.6441  +  .0674 

+  .051 

+  .0023       o 

.14        .48      .19 

248 

Br  131 

6.4 

2   29.175 

83-3 

+  3-3o8o+.0254 

+  .014 

+.0153+  I 

.10        .40      .15 

249 

Br  132 

5-7 

2  35.216 

60.7 

+  3.2iio+.oi67 

+  .OIO 

+  .0060       o 

•  IS        -54      -30 

250 

Br  135 

6.0 

I       2  44.481 

69.4 

+  3.0162  +  .0002 

+  .009 

+  .0097       o 

.12        .52      .24 

330  2  84.    9M  16"  253°- 


235-6  2  88. 


,  30"  160°. 


CATALOGUE   OF   6 1 88   STARS   FOR    1 900 


II 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H/  and  100  A  n  ' 

Prob.  Errors. 
SEp.  loop'  Sio 

Remarks. 

2OI 

0            /                 // 

+  5949  17.21 

70.2 

n               ti 

+  I9-557--I23 

// 

-.26 

tf 
.000      o 

rr             it          it 
.12         .57      .26 

ft  1099.  6^1-6*8  o'/2,  bin. 

2O2 

—  ii  48  29.07 

75-7 

+  19.552-.  105 

-•15 

.000      o 

.08         .38      .15 

22  Ceti  <j>3 

203 

+  37  57  24-85 

74-4 

+  19.576-.  116 

—  .20 

+  .027      o 

.04         .21      .08 

2O4 

-70    4    4-37 

81.8 

+  19.510—  .081 

-.07 

-  -037       o 

.11         .56      .19 

70  G  Tucanae  X1.    Lac  262 

205 

-5343  58.45 

81.5 

+  19.488-  .095 

—  .11 

—  .056      o 

.12         .64     .22 

79  G  Phoenicis 

2O6 

+  22  52  39.74 

60.2 

+  19.494-.  113 

-.18 

—  .042       o 

.10      .45    .24 

207 

-25  54  I7-56 

87.6 

+  19.524-.  104 

-.14 

—  .010      o 

.14    1.  10    .29 

208 

+  65  48  42.48 

69.4 

+  19.542-.  132 

-.29 

+  .013      o 

.10      .51    .23 

209 

+  28  27    5.62 

68.3 

+  19.513-.  115 

-.19 

—  .012      o 

.10        .43      .20 

68  Piscium  h 

210 

+  13    9  18.73 

76.0 

+  19.501-.  113 

-.18 

—  .019      o 

.09        .46     .18 

211 

-ii  55  ii-35 

71.6 

+  19.483—  .no 

-•15 

—  .016      o 

.09        .39      .17 

23  Ceti 

212 

-29  53  52.43 

81.2 

+  19.498—  .106 

-•13 

+  .OOI         O 

.06        .27     .IO 

213 

-67    6    3.66 

83.1 

+  19.481  —  .087 

-.08 

—  .012       o 

.14         .63      .22 

Innes48.  8""8  o'/8  342° 

214 

-61  14  13.39 

79-8 

+  I9-5I3--°94 

-.09 

+  .025       o 

.14         .6l      .23 

72  G  Tucanae 

-215 

+  o  14  31.14 

74-9 

+  19.386-.  113 

-.16 

—  .102       o 

.10      .35    .16 

5  80.    9M  21"  320° 

216 

+  44  10  28.12 

48.3 

+  19.466—  .124 

—  .21 

—  .019      o 

-13      -Si    -34 

2  79.     71*4    8"  192° 

-217 

+  5  5637-22 

76.0 

+  19.471-.  115 

-•17 

—  .009      o 

.08      .44    .17 

218 

+85  43  14.50 

80.  i 

+  19.467—  .267 

-•o°5-  3 

.04      .20    .07 

43  H.  Ceph.  2  Urs.  Min. 

219 

+  88  29  15.58 

57-9 

+  19.444-  .554 

—  .016—  6 

.09         .34      .20 

B  A  C  240 

22O 

-364638.32 

91.1 

+  I9-435--I°8 

-•13 

—  .019      o 

.13      1.02      .23 

93  G  Sculptoris 

221 

-3927  23.45 

90.4 

+  19.498—  .109 

—  .12 

+  .060      o 

.14      I.O2      .24 

222 

+  7  24    4.76 

67.4 

+  19.463—  .120 

-•17 

+  .031      o 

.09         .48      .22 

70  Piscium 

223 

+  40  48  27.26 

62.4 

+  19.414—  .129 

—  .21 

—  .010       o 

.10         .37      .20 

39  Andromedae 

224 

+  31  16    2.29 

74-4 

+  19.392-.  127 

—  .20 

-.031       o 

.08         .34      .15 

225 

-32    5  25.37 

80.0 

+  19.424—  .112 

-•13 

+  .008      o 

.11         .60     .21 

226 

+   7  21    6.33 

71.6 

+  19.442—  .121 

-•17 

+  .028      o 

.03         .15      .06 

227 

-57  32  27.32 

81.8 

+  19.427—  .101 

-.09 

+  .015      o 

.10      .59    .19 

228 

—     5   22   16.87 

70.0 

+  19.308—  .119 

-.16 

—  .101       o 

.10      .39    .18 

25  Ceti 

229 

-4656      6.95 

82.6 

+  19.403—  .108 

—  .11 

+  .OO2         O 

.13      .88    .27 

8  1  G  Phoenicis 

230 

+  o  49  51.06 

68.5 

+  19.360—  .122 

-.16 

-  -034      o 

.05        .26     .12 

26  Ceti  * 

231 

+  39  27  18.15 

57-6 

+  19.366-.  133 

—  .21 

—  .021       o 

•13     -55    -32 

232 

+  86  36  47.45 

72.9 

+  19.367-.  341 

—  .OI7—     2 

.09     .30   .14 

B  AC  273 

233 

+  57  12.84 

68.3 

+  19.362-.  125 

-•17 

—  .009      o 

.09     .38  -.18 

73  Piscium 

234 

+  14  24  29.48 

74-4 

+  19.412—  .127 

-.18 

+  .044      o 

.09     .37    .16 

72  Piscium 

235 

+  2056  15.63 

59-3 

+  I9.340-.  130 

-.18 

—  .017       o 

.10         .37      .21 

1  74  Piscium  ^l  pr  * 

236 

+  20  55  47-Si 

74-6 

+  I9.33I-.  130 

-.18 

—  .025       o 

.12         .50      .21 

)  74  Piscium  ^'  seq.* 

237 

-10  30  51.62 

68.2 

+  19.318-.  123 

"•IS 

-  .032       o 

.11         .42      .21 

27  Ceti 

238 

+    4  22  33.21 

66.2 

+  19.236—  .126 

-•I? 

-.113       o 

.08         .32      .l6 

77  Piscium  * 

239 

+  79  28  41.16 

75-7 

+  19.309-.  196 

-.64 

—  .040      o 

.09         .43      .17 

Groomb  230 

240 

+  42237.55 

76-5 

+  19.240—  .126 

-•17 

-.108      o 

.10      .65    .24 

* 

241 

+  31  38  47.28 

58-4 

+  19.329-  .134 

—  .20 

—  .019      o 

.10      .40    .23 

76  Piscium  a3 

242 

—  10  22  30.25 

72.7 

+  I9.350-.  124 

-•15 

+  .OII         0 

.10      .38    .17 

28  Ceti 

243 

+  12  25  11.82 

72.1 

+  I9.37I-.  130 

-•17 

+  •037       o 

.10      .40    .18 

75  Piscium 

244 

+  54  25  47-33 

62.7 

+  I7.77I-.  l8S 

-•25 

-1.556-23 

.06    .24  .13 

Parallax  ".1,3 

245 

-47  15  15.71 

72.4 

+  19.313-.  112 

—  .11 

—  .014      o 

.08    .37  .16 

Sellers.  4*|li-4Mi  i"  18° 

246 

+  43  2433-58 

59-6 

+  19.254-.  143 

—  .22 

-.057-  I 

.09     .31    .18 

41  Andromedae 

247 

+  57  43  46.29 

86.2 

+  19.304-.  151 

-.27 

—  .004      o 

.13     .43   .16 

248 

+31  28  42.20 

79-3 

+  19.259-.  139 

—  .20 

-.047  -I 

-10        -35      -IS 

78  Piscium 

249 

+  20  12  26.61 

62.7 

+  I9-2I2-.  135 

-.18 

—  .092       o 

•13    -51  -27 

79  Piscium  i//2 

250 

—  10  19  13.86 

7i-5 

+  19.322—  .127 

-•is 

+  .022          0 

.10      .42    .19 

30  Ceti 

238-240  S  90. 


33»  83° 


12 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


mo. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(iand  100  A  (i 

Prob.  Errors. 
aEp.      loop     aio 

M 

h      m        s 

s                s 

s 

s 

//           //         // 

251 

Br  133 

6.6 

I      2   50.224 

69.8 

+3.  0905  +  .0058 

+  .009 

+  .0089—    I 

.08        .36      .17 

252 

Br  136 

5-7 

3  I3-034 

65-3 

+3.0868  +.0078 

+  .009 

—  .0182      o 

.06        .30      .15 

253 

v  Phcenicis 

5-4 

3  I3-8I7 

84.7 

+  2.7468—  .0150 

+  .017 

+  .0025      o 

.15        .72       .24 

254 

t  Tucanas 

5-5 

3  21.067 

79-9 

+2.3884-  .0248 

+  .032 

+  .OIII—     2 

.11             .63         .22 

255 

17  Ceti 

3-5 

3  33-548 

73-3 

+  3.0172     .0000 

+  .009 

+  .0141       o 

.05            .28         .12 

256 

Br  117 

5-8 

3  37-257 

78.2 

+5.0142  +.3435 

+.778 

+  .0324+16 

.04            .28         .IO 

257 

<f>  Androm.  m 

4.2 

34I-7I9 

73-8 

+3.4623  +.0433 

+  .026 

+  .0007      o 

.11             .33         .16 

258 

Br  130 

5-5 

353-m 

64-3 

+  4.0017  +  .  1203 

+•133 

+  .0078+  I 

.12            .44         .23 

259 

/8  Andromeda; 

2.1 

4    7-850 

76.6 

+3-3466  +  .0289 

+.015 

+  .0149+  I 

.03            .14         .05 

260 

£  Phcenicis 

4-i 

4  10.946 

75-7 

+  2.  5300-  .02  1  7 

+  .026 

+  .0008      o 

.11             .50         .20 

261 

Br  144 

5-8 

4  28.311 

65-7 

+  3.  2007  +  .0160 

+  .OIO 

—  .0003      o 

.18            .72          .36 

262 

Br  143 

5-9 

4  37-903 

63-6 

+  3.  3898  +  .0358 

+  .O20 

—  .0122—     I 

.15            .54         .29 

263 

Br  138 

5-6 

4  57-527 

81.4 

+  3.8329+.  0916 

+  .083 

+  .0053+     I 

.12            .50         .l8 

264 

0  Cassiopeiae 

4-5 

5    0.595 

59-8 

+  3.6254+.  0600 

+  .041 

+  .0264+  3 

.07             .24         .14 

265 

Br  139 

5-6 

5  10.329 

72.0 

+  3.8615  +  .0959 

+  .089 

+  .0035      o 

.12            .38         .18 

266 

Br  147 

6.8 

5  11.000 

68.4 

+  3.0092  +  .0008 

+  .009 

—  .0008      o 

•13        -57      -27 

267 

Br  148 

6.4 

5  24-755 

73-5 

+  3.0847  +  .0063 

+  .009 

—  .0002       o 

.08      .38     .16 

268 

Br  145 

6.0 

5  32-957 

66.5 

+  3-3567  +  -0310 

+  .OI6 

—  .0018       o 

-IS        -68      .33 

269 

Br  146 

5-3 

5  35-734 

75-4 

+  3.  2964  +  .  0249 

+  •013 

—  .0017       o 

.14        .52      .23 

270 

X  Piscium 

4.8 

6    4-554 

67.6 

+3.2i58+.oi7o 

+  .OIO 

+  .0014       o 

.15        .57      .28 

271 

T  Piscium 

4.6 

6    9.043 

78.0 

+  3.  2936+.  0238 

+•013 

+  .0055       o 

.05        .28      .10 

272 

L-325 

7-4 

6    9.408 

86.7 

+  2.4710—  .0216 

+  .026 

—  .0066  +   I 

.16        .81      .25 

273 

Br  152 

6-5 

6  38.291 

73-3 

+  3.  0499  +.004  1 

+  .009 

—  .0038      o 

.12            .52         .23 

274 

Pi  9 

6.7 

6  46.462 

65.8 

+  3.4569+.  0408 

+.023 

+  .0033       o 

.14           .56         .28 

275 

Br  154 

6.8 

7  22.901 

72.0 

+  3-0735  +  -0064 

+  .009 

—  .0120      o 

•08           .33         .15 

276 

Br  137 

6.4 

7  39-332 

59-2 

+  5.i285  +  .36i5 

+.838 

-•0173-  5 

.13           .45         .26 

277 

L326 

6.8 

7  39-862 

85-1 

+  2.8411—  .0092 

+  .OI2 

+  .0055       o 

.12            .8l          .23 

278 

Br  156 

7.0 

7  45-687 

73-7 

+  3.OI86+.  002O 

+  .009 

—  .0038      o 

.15            .64         -28 

279 

1,327 

7-3 

8    8.113 

84.1 

+  2.7930—  .0112 

+  .014 

+  .0024       o 

.12            .63          .20 

280 

L328 

6.2 

8    9.050 

86.0 

+  2.7692—  .OI25 

+  .015 

+  .0071—    I 

.10        .56      .17 

281 

<t>  Piscium 

4-7 

8  19.045 

73-8 

+  3.249i  +  .oi96 

+  .OIO 

+  .0016       o 

.11             .36         .17 

282 

t  Piscium 

5-5 

8  30.307 

71.2 

+  3.  1  299  +  .0091 

+  .009 

+  .0089       o 

.05             .26         .11 

283 

Br  159 

6.6 

8  3i-73o 

73-3 

+  3.  1301  +  .0091 

+  .009 

+  .0091       o 

.08            .34         .15 

284 

Br  161 

6.1 

8  48.823 

74-6 

+  3.i8o9  +  .oi40 

+  .009 

—  .0019      o 

.11             .51          .21 

285 

Br  164 

5-3 

9  21.779 

70.5 

+  3.o2i5  +  .ooi6 

+  .009 

+  .0084       o 

.08            .30         .14 

286 

Br  162 

6-3 

9  3°-25i 

67.7 

+  3-ii68  +  .oo89 

+  .009 

—  .0008       o 

.13            .44         .22 

287 

Br  165 

6.0 

9  42-769 

69-5 

+  3.  060  1  +  .0049 

+  .008 

—  .0017       o 

.09        .39      .18 

288 

v  Phcenicis 

5-i 

10  40.391 

79-2 

+  2.7149—  .0167 

+  .018 

+  .0636-  5 

.13            .69         .25 

289 

Abo  34 

7-i 

ii  27.689 

76.2 

+  4.0507  +  .1164 

+  .I2O 

—  .0013       o 

•i2        -57      -23 

290 

Br  167 

5-7 

ii  31.629 

77-8 

+  3.  043  2  +  .0042 

+  .008 

—  .0074       o 

.07             .30         .12 

291 

Br  1  68 

7.2 

"  5I-833 

65-9 

+  3.  0700  +.0042 

+  .008 

+  .0178       o 

.09            .34         .18 

292 

Br  155 

6.6 

ii  59.219 

68.8 

+  4.8640+.  2730 

+  .502 

—  .OO29+     2 

.12             .60         .27 

293 

x1  Tucana; 

7.0 

12   22.445 

89.1 

+  2.0337-.  0180 

+  .027 

+  .0659-14 

.20            .92          .27 

294 

K2  Tucanas 

5-3 

12  22.64O 

76-9 

+  2.0427—  .0184 

+  .027 

+.0751-17 

.IO            .60         .22 

295 

Br  171 

5-4 

12  38.391 

79-6 

+  3.0914+.  0073 

+  .008 

-  .0034       o 

.06            .28         .IO 

296 

Br  172 

7-3 

12  40.862 

71.8 

+  3.oi37  +  .ooi8 

+  .008 

+  .0013      o 

.14            .60         .27 

297 

L36i 

6-5 

13  35-451 

79.1 

+  2.0885-.  0178 

+  .028 

+  .0063—    I 

.13            .69         .25 

298 

<t>  Cassiopeiae 

5-2 

13  47-285 

66.6 

+  3.  7426+.  0699 

+  .050 

+  .OOI2          O 

.09            .34         .18 

299 

Br  163 

6-5 

13  5I-639 

68.0 

+  4.7566+.  2380 

+  -39I 

+  .0218+  7. 

.13            .54         .26 

300 

v  Piscium 

4.8 

I   13  58.086 

81.1 

+  3.  2876+.  0219 

+  .OII 

+  .0017      o 

.04            .26         .08 

257  OS  515. 


'.'z  230° 


283  /3  1029. 


o'/9  242° 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


No. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3"t 

fi'andioo  A(i 

Prob.  Errors. 
SEp.  loop'  Sio 

Remarks. 

251 

Of              tt 

+  I  28  13.47 

65.7 

If                    tf 

+  18.873-.  130 

-.16 

// 
-  .425       o 

"         '/        // 
.07       .34     .17 

29  Ceti 

252 

+  5    7  14-31 

64.2 

+  19.108—  .130 

-•17 

-.181+  I 

.05        .23      .12 

80  Piscium  e 

253 

—  42    i  17.84 

81.1 

+  19.287—  .117 

—  .12 

—  .002       o 

.12         .58      .21 

254 

-62  18  33.46 

81.6 

+  19.301-.  103 

-.08 

+  .015       o 

.10      .58    .19 

255 

-1042  44.45 

77-3 

+  19.148—  .129 

"•IS 

-•133-  I 

.05         .20      .08 

256 

+  79    830.01 

77.0 

+  19.287—  .210 

-•65 

+  .008-  I 

.05         .24      .09 

44  H  Cephei 

257 

+  46  42  30.96 

64.6 

+  19.271-.  147 

-•23 

—  .007      o 

.08         .26      .14 

i 

258 

+  68  1447-52 

56.2 

+  19.259-.  169 

-•34 

—  .014      o 

.10         .34      .21 

31  Cassiopeiae 

259 

+35    5  25.40 

73-8 

+  19.152-.  143 

—  .20 

-.115-  I 

.03         .14      .06 

260 

-55  4649-19 

77-7 

+  19.292—  .no 

—  .10 

+  .026      o 

.09         .46      .l8 

Innes  8.     8Ms    6"  243° 

261 

+  19    7  29.77 

59-7 

+  19.260—  .138 

-.18 

+  .OOI         O 

•15         -56      .32 

81  Piscium  ^ 

262 

+  41  32  58-8i 

58.9 

+  19.209-.  145 

—  .22 

—  .046      o 

.12         .42      .25 

44  Andromedae 

263 

+  63  40  15.11 

81.8 

+  I9-233--I65 

-•31 

—  .014       o 

.09         .45      .16 

264 

+  5437    4.82 

Si-9 

+  19.228—  .157 

-.26 

-.018-  I 

,06         .19      .13 

265 

+  64  29  13.43 

68.0 

+  19.227—  .166 

-•31 

-.015      o 

.09         .29      .15 

32  Cassiopeia 

266 

—   9  26  16.36 

70.1 

+  19.205-.  131 

"•IS 

-  -037      o 

.11         .46     .21 

32Ceti 

267 

+    i  54  48.67 

69.0 

+  19.234-.  135 

-.16 

—  .002       o 

.07        .34     .16 

33  Ceti 

268 

+  37  "  31-33 

62.1 

+  19.229—  .146 

—  .21 

-.003      o 

.14        .60     .32 

45  Andromedae 

269 

+  30  53  34-24 

72-3 

+  19.217-.  144 

—  .20 

—  .014      o 

.12         .49      .22 

82  Piscium  g 

270 

+  2030  11.33 

60.2 

+  19.225-.  142 

-.18 

+  .006      o 

.12         .46      .26 

271 

+  2933  3T-4i 

82.6 

+  19.180—  .145 

—  .20 

-  .038      o 

.05      .34    .10 

272 

-57  23  36.94 

84.8 

+  19.148—  .no 

-.08 

—  .069       o 

.13        .67      .21 

92  G  Phcenicis 

273 

-    2  46  56.13 

68.8 

+  19.180-.  135 

-.16 

—  .026      o 

.10      .37    .18 

34  Ceti 

274 

+  44  48  20.26 

59-o 

+  19.225-.  153 

-•23 

+  .023       o 

.12         .46      .26 

275 

+   i  S^  35-74 

67.5 

+  19.082—  .138 

-.16 

—  .105       o 

.08         .35      .17 

35  Ceti 

276 

+  79  22  44.11 

50-5 

+  19.242-.  225 

-.70 

+  .062+   I 

•13      -35    -24 

277 

-31  1953-01 

80.  i 

+  19.106—  .129 

-•13 

-  .073      o 

.13      .75    .26 

100  G  Sculptoris 

278 

-    7  18  50.23 

71-5 

+  19.158-.  136 

-.16 

—  .019      o 

.12        .47      .22 

36  Ceti 

279 

-3544  10.37 

75-6 

+  19.141—  .128 

-•13 

—  .026      o 

•13        -63      -25 

101  G  Sculptoris 

280 

—  38  23  11.29 

83.7 

+  19.134-.  127 

—  .12 

-  -033      o 

.10      .54    .17 

102  G  Sculptoris 

281 

+  24    3  14.29 

69.7 

+  19.122—  .147 

-.19 

—  .041      o 

.IO        .36     .l8 

S  99.    IOM  8"  227° 

282 

+   7    2  47.48 

66.9 

+  19.106—  .143 

-•17 

—  .052       o 

.05        .20     .IO 

1  2  100.    24"  64° 

283 

+   72  57.99 

74-5 

+  19.107-.  143 

-•17 

—  .050      o 

•07      -37    -15 

1* 

284 

+  1536  15-53 

73-2 

+  19.142-.  145 

-.18 

—  .008       o 

.10      .43    .19 

87  Piscium 

285 

-   8  27  37.46 

68.4 

+  19.404—  .140 

-•IS 

+  .268      o 

.07      .27    .13 

37  Ceti  * 

286 

+  6  27  58.26 

62.9 

+  19.106—  .144 

-•17 

—  .026      o 

.12      .41    .23 

88  Piscium 

287 

-    i  3031-79 

67.0 

+  I9-345--I42 

-.16 

+  .219      o 

.07      .30    .15 

38  Ceti 

288 

-46    3  56.21 

77-4 

+  19.288-.  131 

—  .IO 

+  .187-   3 

.10         .53      .20 

289 

+  67  17  22.07 

69-5 

+  19.081—  .189 

-•35 

+  .001          0 

.11         .45      .21 

290 

-   3    J  36-14 

74.0 

+  19.017—  .144 

-•15 

—  .061       o 

.08         .36      .15 

39  Ceti 

291 

—     2  48   10.85 

63-3 

+  18.940—  .147 

-.16 

—  .129—    I 

.08         .28      .15 

40  Ceti 

292 

+  77;  2  31.02 

67.9 

+  19.158-  .227 

-.60 

+  .092      o 

.11         .34      .18 

293 
294 

—  69  24  20.56 
-69  2425.73 

92.6 
76.8 

+  19.170—  .103 
+  19.171—  .104 

-•05 
-•05 

+  •114-   3 
+  .116-   3 

.19         .93      .25 
.09         .50      .19 

Jh  3423.   s'.'s  355° 

295 

+  35  16.36 

75-2 

+  19.025—  .148 

-•17 

-.023      o 

.06         .26      .11 

89  Piscium/ 

296 

—  8  ii  14.56 

72.0 

+  19.062—  .145 

-•15 

+  .015       o 

.11         .48     .21 

41  Ceti 

297 

-6655  31.60 

74-i 

+  19.019—  .104 

-.06 

-.003       o 

.IO        .48      .20 

80  G  Tucanae  * 

298 

+  57  42  21.48^ 

53-i 

+  19.022—  .181 

-.28 

+  .005       o 

.09        .27      .18 

299 

+  75  42  53-46 

64.8 

+  18.990—  .229 

-•55 

-.025-  I 

.11         .35      .19 

300 

+  2644  18.33 

79-6 

+  19.000—  .160 

-.19 

—  .012       o 

.05         .27      .09 

285ZApp. 


50"  331° 


297  h  34»6.     9?3  2"  339°. 


PRELIMINARY  GENERAL   CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.  and  100  A  p. 

Prob.  Errors. 
a  Ep,      loop     a  10 

M 

h    m        s 

s                s 

S 

s 

tr                tt                 tr 

301 

Br  170 

6.6 

I   14  24.226 

62.2 

+3.9606+.  0975 

+  .086 

+  .0090+    I 

.12            .39         .22 

302 

Br  175  m 

6.7 

1441-475 

68.0 

+3.0651  +  .0053 

+  .008 

+  .0005       o 

.IO            .44         .21 

303 

Br  176 

5-5 

IS  35.480 

62.0 

+3.3064+.  0232 

+  .OI2 

+  .0018      o 

.15            .40         .25 

304 

£  Andromedae 

5-i 

16  26.999 

72.0 

+  3-5I39+-042o 

+  .022 

+  .0039       o 

.09           .28         .14 

305 

Br  181 

6.9 

i?  27-855 

66.5 

+  3.  0656  +  .0054 

+  .008 

+  .0008       o 

.11            .51         .25 

306 

Pi  57 

6.6 

17  27.973 

60.8 

+  3.085  1  +  .0065 

+  .008 

+  .0034      o 

.18           .70        .39 

307 

Br  179 

5-7 

17  57.196 

6i-5 

+  3-4i69+.03i9 

+  .015 

+  .0062       o 

•IS         -54       -30 

308 

L  39i 

7-3 

18  28.065 

83.2 

+  2.0119—  .0141 

+  .025 

—  .OO8I+    2 

.15      .78     .26 

309 

Pi  68 

6.9 

18  48.956 

85.0 

+  2.8613—  .0052 

+  .OIO 

—  .002  I          0 

.13            .72         .22 

3io 

\//  Cassiopeiae 

5-i 

18  51-757 

81.9 

+  4.  1805  +  .1230 

+  .122 

+  .0139+   4 

.05            .26         .09 

3" 

L384 

6.0 

18  51.817 

88.2 

+  2.7966—  .0080 

+  .OI2 

+  .0002      o 

.11      i.oo      .25 

312 

Br  183 

6.9 

19    0.709 

65.8 

+  3.0I53  +  .OOI9 

+  .008 

+  .0107       o 

.13      .44     .23 

313 

0Ceti 

3-7 

19    1.489 

70.5 

+  2.  9978  +  .OOl8 

+  .008 

—  .0054      o 

•03      .15     .07 

314 

8  Cassiopeiae 

2.6 

19  16.196 

70-3 

+  3.8882  +  .0792 

+  •057 

+  .0400+  6 

.03      .14     .07 

315 

1,392 

5-5 

20  15.258 

70-3 

+  2.6603—  .0123 

+  .015 

+  .OOIO          O 

.12            .46         .22 

3i6 

L-395 

6.7 

20  21.386 

85-4 

+  2.6116—  .0134 

+  .OI6 

—  .0009      o 

.14            .78         .24 

317 

Br  190 

5-3 

2O  42.184 

71.0 

+  2.9506—  .0009 

+  .009 

+  .0028       o 

.13            .46         .22 

3i8 

p  Piscium 

5-4 

2051.727 

63.2 

+  3-2257  +  .oi64 

+  .009 

—  .0025      o 

.11             .51          .26 

3i9 

Br  189 

5-7 

21    17.513 

76.4 

+  3-233I  +  -ol65 

+  .009 

+  .0035       o 

•io        -33      -15 

320 

Br  191 

6.8 

21  2O.2O2 

74-8 

+  3.0678  +  .  0056 

+  .008 

+  .0029      o 

.09            .40         .17 

321 

M  Andromedae 

5-i 

21  40.188 

66.5 

+  3-5692  +  .0427 

+  .O2  2 

+  .0324+     2 

•08            .33         .16 

322 

Br  192 

5-8 

21   55-509 

65.0 

+  2.9610—  .0001 

+  .009 

+  .0016      o 

.11            .39        .21 

323 

R  Sculptoris 

Var. 

22  21.911 

97.1 

+  2.7664—  .0084 

+  .OI2 

.0000      o 

.16         1.47         .25 

324 

Br  194  m 

7.6 

22  28.233 

61.6 

+  3.  1  104  +.0085 

+  .008 

—  .0018       o 

.12            .52         .28 

325 

a  Ursae  Min 

1.9 

2233.27- 

67-S 

+  25.222-  +  2O.I3I- 

+.138-  +590 

.03            .11         .05 

326 

Pi  84 

7.0 

23      I-387 

87.5 

+  3-2205  +  .OI52 

+  .009 

+  .0073      o 

.07            .52         .14 

327 

Br  188 

6.0 

23  46-912 

75-i 

+  4-395  1  +  .1460 

+  .I58 

+  .0277+  5 

.06            .30         .12 

328 

Br  197 

6.8 

23  49-832 

66.2 

+  3.  1270+.  0096 

+  .008 

—  .0022      o 

.11             .38         .20 

329 

y  Phcenicis 

3-3 

24      I-405 

70.7 

+  2.6096—  .0125 

+  .014 

—  .0028—    I 

.09            .36         .17 

330 

Br  196 

5-4 

24     6.095 

78.6 

+  3-5782  +  .0450 

+  •023 

+  .0007      o 

.IO            .28          .13 

331 

Br  200 

5-2 

24  48-323 

79-9 

+  2.8796—  .0036 

+  .009 

+  .0040      o 

.08            .42          .15 

332 

/t  Piscium 

5-2 

24  56.656 

62.3 

+  3.  1394+.  0091 

+  .008 

+  .0194      o 

.06            .27          .14 

333 

Pi  88 

7-4 

25     9-304 

81.4 

+  4.2864+.  1282 

+  .126 

+  .0194+  3 

.12             .54         .20 

334 

Pi  99 

6.2 

25  40.150 

84.0 

+  2.  8303  -.0054 

+  .OIO 

+  .0036      o 

.12            .62         .20 

335 

if  Piscium 

3-8 

26      7.864 

75-4 

+  3-2O42  +  .OI42 

+.008 

+  .0020      o 

.03            .16         .06 

336 

8  Phcenicis 

4.0 

27      5.310 

70.4 

+  2.5029—  .0138 

+  .017 

+  .0129—    I 

.10        .34      .17 

337 

Brisb  215 

6.0 

27      5-901 

88.9 

+  2.7776—  .0069 

+  .OII 

+  .0008      o 

.13            .90         .23 

338 

X  Cassiopeiae 

4-9 

27  23.491 

60.0 

+  3.8866  +  .0758 

+  .052 

—  .0044—    I 

.11            .33         .20 

339 

L  447 

5-7 

28  27.673 

79-9 

+  2.6876—  .0093 

+  .013 

—  .0004      o 

.12        .68      .24 

340 

Pi  104 

6.1 

28  30.076 

75-3 

+  3.  4494  +.03  1  9 

+  .014 

+  .0016       o 

.09        .46      .19 

341 

L  450 

6.7 

28  30.542 

85-3 

+  2.4628-.  0135 

+  .017 

-  .0045      o 

.18        .80      .27 

342 

Pi  no 

6.2 

29  24.318 

82.6 

+  3-2394  +  .oi62 

+  .008 

+  .0024      o 

.08        .50      .16 

343 

Br  208 

7-7 

2932.727 

55-0 

+  3-i8o9  +  .oi27 

+  .008 

—  .0001       o 

.13        .46      .29 

344 

Abo  41 

7-5 

29  39-451 

75-8 

+  3.  0892  +  .0065 

+.008 

+  .0130—    I 

.IO            .56         .22 

345 

Br  210 

5-8 

29  44.686 

67.7 

+  2.9307—  .0008 

+  .009 

+  .0064      o 

.13         .44      -23 

346 

Br  207  ' 

6.4 

30  20.254 

55-6 

+  3.  6462  +  .0486 

+.025 

—  .0004      o 

.13       .46     .28 

347 

Br  2ii 

6-5 

30  25.508 

62.4 

+  3-2020+.OI39 

+  .008 

+  .OOOI         O 

.10        .52      .27 

348 

Pi  120 

6.2 

30  30.029 

63-3 

+  3.2396+.oi57 

+  .008 

+  .0108       o 

.12            .62          .31 

349 

Br  206 

5-6 

30  31.008 

82.4 

+  4.7051  +  .  1864 

+.232 

—  .0012       o 

.04            .30         .09 

350 

v  Andromedae 

4.2 

i  30  55-475 

74-8 

+  3.  5040+.  0365 

+  .017 

-.0158-   3 

.07            .26         .11 

302  S  113.     7^7  i'/5  355°;  slow. 


310  2  117.     IIM  3"  42°;  i2M-i3M  27"  108°. 


CATALOGUE  OF  6188  STARS  FOR  1900 


No. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3, 

p.'  and  I  oo  A  p. 

Prob.  Errors. 
SEp.  loop.'  Sio 

Remarks. 

301 

0             /                 // 

+  64    8    1.65 

54-4 

+  18.986-.  193 

-•33 

—  .014      o 

.11         .35      .22 

35  Cassiopeiae 

302 

—     I      2      2.6l 

65.6 

+  18.983-.  151 

-.16 

—  .009       o 

.08         .32      .I? 

42  Ceti  * 

303 

+  28   12   56.38 

62.8 

+  18.890-.  164 

—  .20 

—  .076      o 

.12         .41      .23 

91  Piscium  / 

304 

+  45    o  17.06 

65.2 

+  18.946—  .176 

-.24 

+  .004      o 

.08         .25      .14 

305 

-   058  21.49 

65.8 

+  18.901-.  156 

-.16 

—  .012       o 

.08         .38      .19 

43  Ceti 

306 

+   i  12  15.31 

56.8 

+  18.865-.  157 

-.16 

-  .047      o 

.15         .69      .40 

307 

+  37  ii  34.84 

56-4 

+  18.884-.  174 

—  .22 

—  .014      o 

.14         .51      .31 

47  Andromedae 

308 

-6654  25.94 

80.4 

+  18.868-.  106 

-•05 

-.015       o 

.12         .60      .22 

8  1  G  Tucanae 

309 

-2452  31.40 

86.3 

+  18.866-.  149 

-•*3 

—  .007      o 

.11         .6l      .18 

9M  2"7  80° 

310 

+  67  36  29.30 

76-3 

+  18.906—  .214 

-•39 

+  .034-  I 

.05         .21      .09 

* 

3" 

-31  28    0.44 

83-7 

+  18.817-.  146 

—  .12 

-  -°55      o 

.11         .77      .23 

1096  Sculptoris 

312 

-   8  31  39.40 

67.7 

+  18.800-.  157 

-•15 

—  .067      o 

.11         .41      .20 

44  Ceti 

313 

-   8  41  57-79 

69.3 

+  18.654-.  155 

-•15 

-.213       o 

.03         .15      .07 

Also  fl'Ceti 

314 

+  5942  56.03 

63.2 

+  18.814—  .202 

-•31 

—  .046—     2 

.04         .l6      .09 

315 

-42    046.32 

71.2 

+  18.799—  .141 

—  .11 

-.031      o 

.11         .43      .20 

103  G  Phoenicia 

3i6 

-45     257.41 

81.5 

+  18.805-.  139 

—  .IO 

—  .022          O 

.11         .58      .20 

104  G  Phoenicia 

317 

-15    7    8.31 

68.0 

+  18.807-.  156 

-.14 

—  .OIO         O 

.10      .32    .17 

46  Ceti 

318 

+  1839    6.94 

63-3 

+  18.832-.  170 

-.19 

+  .020      o 

.09        .40     .21 

319 

+  18  43  20.06 

74-8 

+  18.742—  .172 

-.19 

-.057       o 

.09        .32      .14 

94  Piscium 

320 

-°55    6.97 

73-7 

+  18.776-.  163 

-.16 

—  .022      o 

.08        .41      .17 

321 

+  44  53  25.88 

61.4 

+  18.691—  .191 

-.24 

—  .096—     2 

.08        .29     .16 

ft  999.     12"  2'/6  96° 

322 

-13  343S-" 

73-4 

+  18.784-.  159 

-.14 

+  .004      o 

.09        .33      .15 

47  Ceti 

323 

-33    342-82 

91.7 

+  18.688-.  150 

—  .12 

—  .078      o 

.19      1.37      .32 

5M7  to  S^o 

324 

+   4  50  13.96 

62.0 

+  18.624-.  168 

-•17 

-.139      o 

.11         .51      .27 

95  Piscium  * 

325 

+  8846  26.49 

67.8 

+  18.761—  1.311 

+  .001—   7 

.02         .08      .04 

Polaris  * 

326 

+  16  33  42.43 

86.0 

+  18.712—  .175 

-.18 

—  .034      o 

.07         .47      .13 

327 

+  69  45    0.28 

70-3 

+  18.656-  .238 

-•43 

—  .066—     2 

.06        .26     .12 

38  Cassiopeiae 

328 

+   6  46  40.41 

63-4 

+  18.670—  .171 

-.051       o 

.11          .38      .21 

96  Piscium 

329 

-43  49  SO-H 

72.2 

+  18.496—  .144 

—  .10 

—  .219      o 

•08         .33      .15 

330 

+  46  29  28.79 

74-4 

+  18.668-.  195 

-•25 

—  .044       o 

.IO         .28      .14 

49  Andromedae  A    . 

331 

—  22    8  47.84 

84.8 

+  18.692—  .160 

-•13 

+  .OO2         O 

.08         .51      .15 

48  Ceti 

332 

+   5  37  42.01 

60.6 

+  18.642—  .174 

-•17 

-.044-     I 

.05         .21      .11 

333 

+  67  53  42.44 

78.7 

+  18.625-.  236 

-.41 

-.054-     I 

.IO         .41      .l6 

334 

-2643  27-I7 

84.6 

+  18.673-.  159 

—  .12 

+  .011         O 

.11         .50      .I? 

116  G  Sculptoris  * 

335 

+  14  49  48.99 

72-5 

+  18.638-.  179 

-.18 

—  .OIO         O 

.03         .16      .07 

ft  506.     ii*"  i"  15° 

336 

-4933  32-58 

78.0 

+  18.766—  .144 

-.09 

+  .149-     * 

.09         .38      .15 

337 

-3047  47.35 

85-4 

+  18.548-.  158 

—  .12 

-  .068       o 

.11         .69      .20 

118  G  Sculptoris 

338 

+  58  43    7-97 

51.0 

+  18.591—  .219 

-•31 

—  .016      o 

.09        .29      .19 

339 

-37  22  43.25 

78-3 

+  18.541-.  155 

—  .11 

-.031       o 

.12         .56      .22 

119  G  Sculptoris 

340 

+  3643  28.11 

71.6 

+  18.555-.  197 

—  .22 

—  .016       o 

.08         .37      .16 

341 

—  50  14  22.82 

79-2 

+  18.484-.  143 

-.09 

-  .086      o 

.14,       .58      .23 

112  G  Phoenicis 

342 

+  17  5659.13 

82.9 

+  18.460-.  188 

-.19 

—  .081       o 

.07         .47      .15 

343 

+  12      2  47.67 

S3-2 

+  18.526-.  184 

—  .OIO         0 

.11         .40      .25 

100  Piscium  * 

344 

+  o  26  23.87 

71.7 

+  18.274-.  180 

-.16 

-.258-  I 

.09         .42      .l8 

345 

—  16  ii  19.46 

70.4 

+  18.539-.  171 

-.14 

+  .OIO         0 

.11         .44      .21 

49  Ceti 

346 

+  48  12  43.62 

61-5 

+  18.497—  .212 

-.26 

-.013       o 

.10      .45    .24 

347 

+  14    9    0.41 

61.1 

+  18.496-.  187 

-.18 

—  .Oil          0 

.09        .44      .23 

101  Piscium 

348 

+  1655  l8-92 

61.9 

+  18.527—  .190 

-.18 

+.023-  I 

.11         .59     .30 

349 

+  7231  49.37 

76.4 

+  18.498—  .272 

-•52 

—  .006      o 

.05        .22      .09 

40  Cassiopeiae 

350 

+  40  54  19.05 

69.9 

+  18.112—  .204 

-.24 

-.378+  I 

.06        .23      .11 

324  ft  1164.     8f2-&fs  o'/4  164°. 
334  ft  1230.     11*6  2'/8  224°. 


325293.     9?si8"  215°. 
3438136.    8?7i6"790. 


i6 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   1900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3at 

Hand  100  A  |i 

Prob.  Errors, 
a  Ep.     loop     aio 

M 

h    m        s 

S                     5 

s 

s 

//             //          » 

351 

Br  213 

5-7 

i  31    6-3Si 

77.6 

+  2.9264—  .OOO5 

+  .008 

+  .0016       o 

.09         .45       .17 

352 

1,465 

6.9 

31  28.494 

93-5 

+  2.6269—  -O100 

+.013 

—  .0025      o 

.16       1.23       .26 

353 

L468 

6.4 

31  30.098 

90.2 

+  2.  2539-  .0143 

+  .019 

+  •0343-   5 

.15         .92       .24 

354 

T  Sculptoris  m 

5-9 

3i  3i-i85 

84.6 

+  2-7733-  -0064 

+  .OII 

+  .0061       o 

.13         .90       .26 

355 

Radcl  481 

5-9 

31  35-I2i 

80.3 

+  3-8872  +  .0722 

+  .046 

-.0003       o 

.10         .57       .20 

356 

ir  Piscium 

5-8 

31  47-742 

73-4 

+  3.I745  +  -OI25 

+  .008 

—  .0051       o 

.06           .27         .12 

357 

v  Persei 

3-8 

3i  5I-039 

70.4 

+  3.  6600  +.0486 

+  .024 

+  .0061       o 

.04           .18         .08 

358 

L  S°S 

6-3 

32  59-023 

80.2 

+  0.3428  +  .  1158 

-.265 

—  .OI28—     2 

.07            .64         .21 

359 

L  479 

6.4 

33    4-936 

81.8 

+  2.2018—  .0127 

+  .OI8 

+  .0006       o 

.l6            .80         .28 

360 

\  Andromedae 

5-2 

33  20-943 

68.8 

+  3-5798  +  .o4i4 

+  .019 

—  .0016       o 

.12            .48          .23 

36i 

Br  219 

7-i 

3351-775 

62.7 

+  3-2259  +  .OI52 

+  .008 

—  .0002       o 

.15            .51          .28 

362 

Br  220 

7.0 

33  53-8l9 

64.4 

+  3.2091  +  .0138 

+  .008 

+  .0062      o 

.11             .44         .23 

363 

a  Eridani 

o-3 

33  59-463 

67-7 

+  2.2391—  .0130 

+  .OI8 

+  .OIII—     2 

.05            .26         .12 

364 

L  476 

6.2 

34    0.961 

86.2 

+  2.  6685  -.0086 

+  .OI2 

—  .0017       o 

.11        .66      .19 

365 

Paris  2056 

5-8 

34    5-027 

95-8 

+  2.8656—  .0027 

+  .009 

+  .0064      o 

.12            .99         .19 

366 

Pi  140 

6.8 

34    8.445 

83-5 

+  2.8193—  .0042 

+  .009 

+  .0019      o 

.11        .66      .21 

367 

Br  223 

6.4 

34  16.990 

70.6 

+  3.2296  +  .oi5i 

+  .008 

+  .0050      o 

.09        .33      .16 

368 

Groomb  360 

5-9 

34  39-746 

87-7 

+  3.  58  1  2  +  .O4OI 

+  .OI8 

+  .0122+     I 

•13        -Si      -i7 

369 

T  Andromedae 

5-o 

34  40.444 

71.8 

+3.5249+.  0362 

+  .OI6 

+  .OOI2         O 

.09        .36      .16 

370 

o>  Cassiopeias 

5-7 

34  55-704 

82.3 

+4.3830+.  1286 

+  .118 

+  .OO97+    2 

.05        .32      .10 

371 

Br  215 

5-4 

35  10.024 

65-3 

+4.5777+.  1555 

+  -I59 

+  .0146+  3 

.11        .50      .25 

372 

Pi  142 

5-3 

35  41.610 

63-3 

+  3  -6347  +  -0400 

+  .017 

+  .0725+  5 

.09        .34      .18 

373 

Pi  1  45 

6.4 

35  43-597 

77.1 

+  3-3373  +  -02i6 

+  .009 

+  .0094      o 

.13        .81      .30 

374 

Pi  139 

7-5 

35  5i-"3 

71.7 

+  4.0145  +  .0826 

+  .054 

+  .0004       o 

.13        .60      .26 

375 

Br  225 

6.2 

35  59-974 

74-5 

+  3-3794  +  -025I 

+  .OIO 

—  .0010      o 

.12            .42         .19 

376 

L49S1 

6.2 

36    0.014 

80.7 

+  2.2788—  .0131 

+  .017 

+  .0341-   5 

.16           .72         .27 

377 

L4952 

6.2 

36   0.634 

88.5 

+  2.2778—  .0129 

+  .017 

+  .0331-  4 

.15            .72         .22 

378 

v  Piscium 

4-7 

36  13-579 

75-o 

+  3.  1184+.  0091 

+  .007 

—  .0014      o 

.03            .20         .08 

379 

Abo  45 

5-7 

36  16.500 

70-7 

+  3.4538  +  .0301 

+  .OI2 

+  .0035       o 

.10        .57      .25 

380 

Br  224 

5-9 

36  33-355 

70.2 

+  4.0240  +.0829 

+  .054 

+  .0032       o 

.10        .51      .23 

38i 

Dpt  139 

6-3 

36  48.584 

86.4 

+  2-96o4+.ooi2 

+  .008 

+  .0027—    I 

.11        .51      .16 

382 

Br  229 

5-5 

37    3-986 

63.0 

+  3.2488  +  .OI7I 

+  .008 

-.0210-   3 

.09      .27     .15 

383 

L  496 

6.4 

37    3-992 

83-9 

+  2-6373-.  0087 

+  .012 

+  .0041       o 

.13             .69          .22 

384 

<f>  Persei 

4.2 

37  23-346 

75-5 

+  3.7362  +  .  0532 

+  .026 

+  .0029       o 

.04            .l8         .07 

385 

ir  Sculptoris 

5-4 

37  37-802 

87.6 

+  2.7113-.  0065 

+  .OII 

—  .0047       o 

.12            .75          .20 

386 

L  501 

5-9 

37  38-523 

88.2 

+  2.6473—  .0081 

+  .OI2 

-  .0037       o 

.IO            .60         .l6 

387 

Pulkjs  245 

5-4 

37  40-118 

92.1  . 

+  3-0330+  .0048 

+  .007 

+  .0012          O 

.13            .75         .18 

388 

L  502 

7-i 

37  41.786 

85-3 

+  2.3974-  .0115 

+  .OI6 

-  .0035       o 

.l6         I.  TO        .32 

389 

L  5°7 

5-8 

38  22.517 

83.0 

+  2.0554—  .0096 

+  .OI6 

-.0013       o 

.16           .8l         .27 

390 

L  506 

5-7 

38  38.097 

87.8 

+  2.3131—  .0121 

+  .016 

+  •0151-   3 

.18           .92         .27 

391 

rCeti 

3-5 

39  25-358 

75-7 

+  2.  7868  +  .0009 

+  .008 

-.1195+  6 

.04           .22         .09 

392 

Br  231 

6.6 

39  27-977 

57-8 

+  3.  2690+.  0175 

+  .008 

-.0033       o 

.13            .42         .26 

393 

o  Piscium 

4-4 

40    6.707 

74-i 

+  3.i63o  +  .oii2 

+  .007 

+  .0046      o 

.03            .18         .O? 

394 

Pi  159 

5-8 

40  30.598 

81.0 

+  4.2911  +  .  1023 

+  •073 

+.0875+12 

•07         -44      -IS 

395 

L576 

6.1 

40  33.84- 

74-8 

-1.830-  +.533- 

+  .069-  —  24 

.08        .69      .26 

396 

f  Sculptoris 

5-5 

4°  57-751 

81.9 

+  2.8115—  .0038 

+  .009 

+  .0116—    I 

.07             .38         .12 

397 

Pi  167 

5-7 

40  58.068 

84.4 

+  3.0082  +  .0040 

+  .007 

—  .0019       o 

.08            .62          .17 

398 

Br  234 

6.9 

4i    9-524 

68.2 

+  3.  2495  +  .0160 

+  .007 

+  .0036       o 

.10        .39      .19 

399 

LSSI 

6-5 

41  17.456 

85.2 

—  0.0368+.  1599 

-.388 

+  .0215-      <; 

.13            .64         .21 

400 

L  520 

5-6 

i  42  10.732 

9J-3 

+  2.3542—  .0107 

+  .015 

+  .0016       o 

•13        -75      -19 

361  (3  5.     9M  i'/2  291° 


380/31103.     i2Mi'/74°. 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


No. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3dt 

n'  and  100  A  n 

Prob.  Errors. 
SEp.  100  |i'  Sio 

Remarks. 

351 

Of                 It 

-15  54  42-32 

77.2 

f/                     // 

+  18.501-.  173 

// 

-•13 

+  .017       o 

.09      .40    .16 

50  Ceti 

352 

-40  27  24.38 

90.1 

+  18.403-.  157 

—  .10 

-  .068  -    o 

.16    1.06    .26 

114  G  Phcenicis 

353 

-S838S9-70 

83-5 

+  18.441-.  137 

-.07 

—  .029—     2 

.12        .58      .20 

12  G  Hydri 

354 

—  30  25  IO.22 

77-4 

+  18.505-.  165 

—  .11 

+  -035      o 

.12        .63      .24 

113447.  6?2-7?4  2"  93° 

355 

+  57  28    4.97 

79-2 

+  18.463-.  228 

-•31 

—  .004      o 

.10         .55      .20 

356 

+  ii  37  48.13 

66.9 

+  18.497-.  188 

-•17 

+  .037       o 

.06        .22      .11 

357 

+  48    7  17.80 

71.9 

+  18.346—  .216 

-.26 

—  .112          O 

.03        .16      .07 

51  Andromedae 

358 

-79    044.44 

81.3 

+  18.301—  .027 

—  .11 

-.118+     I 

.06        .59      .18 

14  G  Hydri 

359 

-5846  51.27 

78.4 

+  18.417-.  134 

-.07 

+  .OOI          O 

.13        .60     .23 

13  G  Hydri 

360 

+  43  52  38-72 

62.2 

+  18.416—  .214 

-.24 

+  .009       o 

.11         .34      .20 

361 

+  16    7    4.24 

65.6 

+  18.358-.  195 

-.18 

—  .03  1       o 

.10      .47    .23 

103  Piscium  * 

362 

+  13  46  40.67 

62.2 

+  i8-35I--I95 

-.18 

-.037       o 

.13         .51      .28 

104  Piscium 

363 

-  57  44  40.97 

70-9 

+  18.355-.  139 

-.07 

—  .029—    I 

.05         .26      .12 

Achernar 

364 

-37    2    0.42 

83.6 

+  18.248-.  163 

—  .11 

-.136      o 

.IO         .59      .l8 

122  G  Sculptoris 

365 

-2i  47    5.12 

94-2 

+  18.419-.  175 

-•13 

+  .038      o 

.15      I.O2      .22 

366 

-25  3i  50-54 

84.6 

+  18.387-.  172 

—  .12 

+  .008      o 

.10      .56    .17 

L  145;  123  G  Sculpt. 

367 

+  15  53  54-49 

65.2 

+  18.361—  .196 

-.18 

-  -013      o 

.07         .25      .13 

105  Piscium 

368 

+  42  47  3°-45 

82.8 

+  18.323-.  218 

-.24 

-.038-  I 

.12         .41      .l6 

369 

+  40    4  14.25 

68.4 

+  18.336-.  214 

-.24 

—  .025      o 

.08        .34       .16 

370 

+  67  32  14.26 

78.1 

+  18.350—  .266 

-•43 

—  .002—    I 

.05         .26      .IO 

Or  43  Cassiopeia 

37i 

+  70    7    2.66 

55-8 

+  18.336-  .278 

-.48 

—  .007—    I 

.IO         .40      .24 

42  Cassiopeia? 

372 

+  42    6  42.48 

59-6 

+  18.182-.  227 

-.24 

-.142-    4 

.08         .31      .18 

373 

+  25  14  26.38 

77-5 

+  18.280-  .206 

—  .20 

-  -043      o 

.09        .55      .20 

S  145.     IIM  ii"  32° 

374 

+  60    234.81' 

58-4 

+  18.312-.  245 

-•34 

—  .007      o 

.11         .38      .22 

375 

+  29  32  29.33 

79.0 

+  18.311-.  208 

—  .21 

-  .003      o 

.11         .42      .17 

376 

—  56  42  10.71 

77.0 

+  18.283-.  145 

-.07 

-.031-     2 

.12         .57      .22 

3  G  and  4  G  Eridani 

377 

-5642    4.91 

87.2 

+  18.388-.  145 

-.07 

+  .075-     2 

.13         .69      .20 

p.     See  Appendix 

378 

+  4    58  53.64 

73-2 

+  18.307-.  193. 

-.16 

+  .OOI          0 

.03         .18      .07 

51  Ceti 

379 

+  34  44  27.23 

69.7 

+  18.273-.  213 

—  .22 

-.031      o 

.08         .45      .20 

380 

+  60      2  49.42-' 

56-3 

+  18.281-.  248 

-•34 

-.013      o 

-09         -31      -19 

44  Cassiopeias  * 

38i 

—  ii  49    7.26 

79.6 

+  17.875-.  185 

-.14 

—  .410      o 

.IO         .41      .l6 

5  147-  7M9-3"5  88° 

382 

+  194656.52 

61.6 

+  17.604—  .201 

-.19 

-.672+  I 

.08         .28      .16 

107  Piscium 

383 

-383824.18 

80.2 

+  18.317-.  166 

—  .10 

+  .041       o 

.12         .56      .21 

127  G  Sculptoris 

384 

+  50  ii    5.92  - 

75-8 

+  18.246-  .233 

-.28 

—  .018       o 

.04         .l8      .07 

54  Andromedae 

385 

-32  49  52-39 

81.4 

+  18.225—  .171 

—  .11 

-  .030      o 

.12         .63      .22 

386 

—  37  20  12.  16 

84.9 

+  18.236—  .167 

—  .11 

—  .019      o 

.10      .51    .16 

129  G  Sculptoris 

387 

-4*n  37.64 

88.0 

+  18.232—  .191 

-•15 

—  .022       o 

.12         .59      .18 

388 

-50  32  36.02 

80.  i 

+  18.238-.  152 

-.08 

—  -015       o 

.12         .65      .23 

119  G  Phcenicis 

389 

-61  17  34.30 

81.2 

+  18.197-.  132 

-.06 

-.031      o 

.13         .67      .23 

15  G  Hydri 

390 

-54  I43I-59 

81.4 

+  18.133-.  149 

-.07 

-.086-  I 

.15         .6l      .23 

5  G  Eridani  q1 

391 

-16  27  50.72 

74-3 

+  19.046—  .170 

-•Z3 

+  .856+  8 

.05         .25      .IO 

Parallax  '.'31 

392 

+  1935    1.72 

57-3 

+  18.088-  .208 

-.19 

—  .100      o 

.12         .42      .25 

109  Piscium 

393 

+  8  39  16.09 

74.0 

+  18.215-.  203 

-•i? 

+  .051       o 

.03         .17      .07 

394 

+  63  21  32.58* 

78.6 

+  I7-9I5--279 

-•38 

-.235-   6 

•07      -34    -13 

395 

—  83  29      2.12 

77-i 

+  18.286+.  101 

+  .138-   4 

.08      .67    .23 

3  G  Octantis 

396 

-2533      8.60 

81.1 

+  18.076-.  183 

—  .12 

-.057-  I 

.07      .40    .13 

h346i.    9M24'/757° 

397 

—   6  14    0.91 

79-i 

+  18.105-.  195 

-•15 

—  .028      o 

.08      .47    .16 

398 

+  16  5443-06 

61.7 

+  18.137—  .210 

-.18 

+  .OII         O 

.10         .35      .20 

3  Arietis 

399 

-7939    7-98 

85-3 

+  18.142—  .006 

--1? 

+  .O2I—     I 

.11         .55      .18 

17  G  Hydri  rl 

400 

-51,1858.43 

84-5 

+  18.068-.  156 

-.08 

—  .019       o 

.10      .48    .16 

120  G  Phcenicis 

i8 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3, 

(i  and  100  A  n 

Prob.  Errors. 
a  Ep.      IOO|1     aio 

M 

h    m        s 

s                s 

S 

s 

//              „           // 

401 

L523 

5-3 

I  42  17-557 

82.7 

+  2.2911—  .0109 

+  .015 

+.0135-  I 

.12             .70         .23 

402 

Pi  170 

6-3 

42  44.633 

76.8 

+3-5254+.  0334 

+.013 

+  .0093       o 

.09            .51          .19 

403 

Br  235 

5-9 

42  45-383 

68.0 

+3.  2468+.  0157 

+  .007 

+  -0033      o 

.09            .34         .17 

404 

Br  236 

7-8 

42  55-736 

75-7 

+  3.2425  +  .OI57 

+  .007 

—  .0020      o 

.13        .68      .27 

405 

Pi  171 

6.0 

42  57-701 

75-i 

+3.4238+.  0278 

+  .OIO 

—  .0138       o 

.16        .72      .30 

406 

L  634 

5-8 

43    8.09- 

81.0 

-3.942-  +  !.  172- 

+  .019-  -  8 

.05        .45      .14 

407 

L  526 

6.7 

43  25.864 

87-7 

+  2.6232—  .0075 

+  .OII 

+  .0007       o 

.11        .58      .17 

408 

Pi  182 

7-o 

44  28.648 

79-o 

+  2.  9467  +  .OO2  I 

+  .007 

—  .0092      o 

.13            .57         .22 

409 

Pi  176 

6.2 

44  32-734 

77-o 

+  3.8is6  +  .o564 

+  .027 

+  .0047       o 

.10        .44      .17 

410 

Pi  179  N* 

6.4 

44  36.931 

62.0 

+  3.3067  +  .0192 

+  .008 

—  .0010      o 

.11            .62         .32 

411 

xCeti 

4.8 

44  40-373 

69.2 

+  2.945O+.OO22 

+  .007 

-•  .0108       o 

.07            .28         .14 

412 

Br  237 

5-7 

45  25.072 

76.1 

+  3.9127  +  .0650 

+  •034 

+  .0039      o 

.10        .34      .15 

413 

L536 

6.6 

45  29-913 

84.2 

+  2.5922—  .0074 

+  .OII 

—  .0010+   i 

.13            .63         .21 

414 

Br  243 

6.1 

45  33-506 

75-o 

+  3.i783  +  .oi23 

+  .007 

—  .0047      o 

.06            .28         .12 

415 

Br238 

5-9 

45  47-540 

77-8 

+  3.  7918  +  .0540 

+  .024 

+  .0025       o 

.10        .30      .14 

416 

£Ceti 

3-8 

46  3I-453 

76-7 

+  2.  9602  +  .OO24 

+  .007 

+  .0025       o 

.04           .21         .08 

417 

L547 

6-3 

47    1.691 

81.6 

+  2.3319-  .0095 

+  .014 

-  .0053      o 

.15            .72         .25 

418 

L543 

6.9 

47  10.532 

83-5 

+  2.5627-.  0078 

+  .OII 

+  .0018      o 

.15            .8l         .26 

419 

c  Cassiopeiae 

3-4 

47  "-753 

71.8 

+  4.2697  +  .1003 

+  .068 

+  .0057+  I 

.03            .15         .07 

420 

Br  244 

5-7 

47  17-328 

78.0 

+  3.5826+.  0369 

+  .014 

.0000      o 

.11            .34         .16 

421 

a  Trianguli 

3-4 

47  22.739 

78-9 

+  3.  4094  +.0248 

+  .009 

+  .0013—   I 

.04            .21          .08 

422 

•y  Arietis  N  * 

4-9 

48    2.459 

65-3 

+  3.2844  +  .OI72 

+  .007 

+  .0054      o 

.07            .24         .13 

423 

y  Arietis  S  * 

4-7 

48    2.490 

70.4 

+  3.2847  +  .oi73 

+  .007 

+  .0057       o 

.07            .27         .12 

424 

Paris  2348 

5-9 

48    3-577 

96-4 

+  2.8829—  .0002 

+  .008 

+  .OOIO         O 

.13         I.  II         .20 

425 

«)  Cassiopeiae 

5-2 

48  13-515 

63-7 

+  4-5934+  -1387 

+  .I2O 

+  .0016      o 

.11            .52         .27 

426 

£  Piscium 

4.8 

48  22.655 

79.1 

+  3.io25  +  .oo84 

+  .007 

+  .0015       o 

.04           .26         .09 

427 

LSSS 

6-3 

49    4-946 

85-7 

+  2.5874-  -0074 

+  .OII 

+.0125-  I 

.13            .70         .22 

428 

ft  Arietis 

2-7 

49    6.853 

74.8 

+  3.3060+.  0183 

+  .007 

+  .0068       o 

.02            .15         .06 

429 

ty  Phcenicis 

4-3 

49  38-273 

79.1 

+  2.  4084-  .0088 

+  .OI2 

—  .0090      o 

.12        .68      .24 

430 

Br  253 

6.2 

49  59.308 

71.6 

+  3-5334+-  0327 

+  .012 

—  .0003       o 

.IO            .45          .20 

431 

L577 

Var. 

50    2.833 

78.8 

+  1.5  109  +  .0089 

-.005 

+  .0008       o 

.16        .68      .27 

432 

Br  255 

6.0 

So  12.734 

73-0 

+  3-5492  +  .0329 

+  .OI2 

+  .0150+  I 

.09        .40      .17 

433 

<f>  Phcenicis 

5-3 

50  13.096 

82.1 

+  2.4923—  .0080 

+  .012 

—  .0038      o 

.10        .50      .17 

434 

Br2S7 

6.1 

50  16.288 

62.8 

+  3  -3365  +  -0203 

+  .008 

+  .0005       o 

.13        .50      .27 

435 

Pi  209  m 

6-3 

5°  43-590 

66.0 

+  3-0975  +  -0079 

+  .006 

+  .0105       o 

.13        .51      .26 

436 

i  Arietis 

5-3 

Si  53-J32 

62.7 

+  3.  2700+.  0164 

+  .007 

+  .O02I         O 

.09        .38      .20 

437 

Br  267 

5-3 

5i  59.24I 

78.0 

+  2.8109—  -OO2O 

+  .008 

+  .0051       o 

.10        .40      .16 

438 

X  Eridani 

3-7 

52    4-005 

75-6 

+  2.  3383  -.0097 

+  .013 

+  .0726—   6 

.11        .48      .20 

439 

Br  261 

6.0 

52  12.087 

79-9 

+  3-7898  +  .05IO 

+  .O2  1 

+  .0017       o 

.10        .33      .14 

440 

Radcl  569 

5-4 

52  15.190 

83-7 

+  4.3765  +  .  1071 

+  •073 

+  .0073       o 

.10        .62      .19 

441 

X  Arietis 

4-9 

52  21.251 

66.0 

+  3  -3340  +.0203 

+  .OO7 

—  .0068       o 

.08      .30    .15 

442 

L  594 

4.8 

52  23.983 

80.2 

+  I-5I42  +  .0093 

—  .OO6 

+  .OIIO         O 

.13             .58         .22 

443 

Groomb  410  m 

7-o 

52  52-357 

80.0 

+  5-4394  +  -2560 

+  .328 

+  .0059+  I 

.IO            .50         .l8 

444 

Br  268 

6-7 

S2  54-4io 

78.0 

+  3.  0473  +  .0062 

+  .O06 

+  .003  1       o 

.10        .42       .17 

445 

L  585 

4.8 

53  12.282 

84.0 

+  2.3820—  .0084 

+  .OI2 

+  .0103—   I 

.l6            .80         .26 

446 

Br  258  m 

4.6 

53  44-085 

73-7 

+  4.8495  +  .1658 

+  -I56 

-.0121-   3 

.08            .34         .15 

447 

Pi  223 

6-3 

54    4-562 

74-i 

+  3-2057  +  .OI32 

+  .OO6 

—  .0001       o 

.09            .50         .20 

448 

Yarn  946 

6.7 

54  44-505 

91.1 

+  2.  7509-.  0030 

+  .008 

+  .0043      o 

.15            .98         .24 

449 

Br  260 

4.0 

5453-211 

70.6 

+  5-0333  +  -1894 

+  -I93 

—  .0083  —     2 

.03             .16         .07 

450 

Br  271 

6.1 

i  54  56.994 

68.8 

+  .OO6 

+  .0155-  I 

.08            .26         .13 

410  S  174. 


2'/8  165°. 


435  S  186.     y*!1!-?""!,  <  2'/o;  binary,  150  yrs.  ±. 


431  6*6  to 


CATALOGUE  OF  6188  STARS  FOR  1900 


No. 

Decl.  i  goo 

Epoch 

An.  Var.  and 
Sec.  Var. 

3dt 

H/  and  i  oo  AH 

Prob.  Errors. 
SEp.  loop/  Sio 

Remarks. 

401 

—  54    i  26.86 

80.7 

+  18.144-.  153 

H 

-.07 

+  .061—    i 

.10      .51    .18 

6  G  Eridani  g2 

402 

+  37  27  18.08 

7i-3 

+  18.040—  .231 

-•23 

—  .026—    i 

.08     .37    .16 

2 

403 

+  16  27  27.55 

68.0 

+  18.040—  .213 

-.18 

—  .025       o 

.09     .38   .18 

4  Arietis 

404 

+  16  31  21.89 

72.4 

+  18.113-.  213 

-.18 

+  .054       o 

.11     .59   .25 

405 

+32  ii    0.66 

70.8 

+  18.366—  .224 

—  .21 

+  .308+    i 

.14      .60    .27 

406 

—  85  16  29.20 

81.8 

+  18.080+.  241 

+  .029—    i 

•05      -45    -H 

4  G  Octantis 

407 

-37393J-78 

84.6 

+  18.055-.  174 

—  .IO 

+  .015       o 

.12      .57    .19 

2  G  Fornacis 

408 

—  ii  ii  54.16 

79.1 

+  17.911—  .196 

-.14 

-.089+   i 

.12         .54      .21 

409 

+  51  26  24.99 

70.0 

+  17.884-  .253 

-.28 

-.113      o 

.09     .33   .16 

410 

+  21  4643-40 

57-3 

+  17.983-.  220 

-.19 

—  .on      o 

.10      .47    .27 

i  Arietis  * 

411 

—  ii  10  51.40 

69.4 

+  I7.9I3-.  197 

-.14 

-.079+  I 

.07     .26  .13 

412 

+  5439    8-03  * 

67.8 

+  17.954—  .26l 

-•30 

—  .009       o 

.09     .25   .14 

i  Persei 

413 

-385425.77 

85-4 

+  18.232-.  175 

—  .IO 

+  .272      o 

.14         .64      .21 

4  G  Fornacis 

414 

+  1032  53.45 

72.4 

+  17.931—  .213 

-•17 

—  .027       o 

.06         .26      .12 

54  Ceti 

415 

+  50  17  54.63  " 

7i-3 

+  17.920-  .254 

-.28 

—  .029      o 

.09         .25      .13 

2  Persei  g 

416 

—  10  49  44.68 

78.4 

+  I7.888-.  201 

--I4 

-.032       o 

.05         .27      .IO 

417 

-5042    4.49 

80.8 

+  17.889-.  160 

-.08 

—  .on       o 

.12         .65      .22 

124  G  Phcenicis 

418 

-40  1947-92 

82.4 

+  17.869—  .176 

—  .IO 

—  .025      o 

.12         .64      .21 

125  G  Phcenicis 

419 

+  63  1039.51' 

65-5 

+  i7.877-.28o 

-•39 

—  .017       o 

.04         .l6      .08 

420 

+  40  14  10.39" 

72.9 

+  17.881  -.243 

-.24 

—  .009      o 

.10      .30    .15 

55  Andromedae 

421 

+  29    5  30.08 

73-9 

+  17-654-  -232 

—  .21 

-.232       o 

.04         .23      .09 

422 

+  18  48  20.90 

67.0 

+  17.745-.  225 

-.19 

-.115      o 

.06         .24      .12 

1 

423 

+  18  48  12.19 

64.4 

+  17.  752-.  225 

-.19 

—  .108       o 

.06         .26      .14 

j  5  180.    8'f3  359° 

424 

-17  25  16.99 

91.2 

+  17.794-.  199 

-•13 

—  .066       o 

.13      1.05      .24 

425 

+  68  ii  38.72' 

55-6 

+  17.  849-.  312 

-•47 

—  .004      o 

.08         .33      .20 

Or  46  Cassiopeiae 

426 

+     2  41  38.11 

78.1 

+  17.872—  .214 

-.16 

+  .025      o 

.04      .27    .10 

427 

-39    5  17-29 

83.1 

+  17.844—  .181 

—  .10 

+  .025—  I 

.13         .60      .21 

6  G  Fornacis 

428 

+  20  19    9.16 

72.8 

+  17.706—  .229 

-.19 

—  .III          O 

.03         .15      .06 

429 

-4647  32-86 

76.9 

+  17.704—  .169 

-.08 

—  .092+   I 

.09         .49      .19 

430 

+  36  47  M-SS  ^ 

64.4 

+  I7-785-.245 

-•23 

+  .003      o 

.09         .35      .18 

431 

—  68  26  12.85 

73-5 

+  I7-773--HO 

-.04 

—  .007       o 

.12        .49     .22 

19  G  Hydri  J  * 

432 

+  36  45  40.43 

66.8 

+  17.784-.  248 

-•23 

+  .OII—     I 

.08        .34     .17 

56  Andromedae 

433 

-42  59  iS-34 

77-6 

+  17.740-  .175 

-.09 

—  .032       o 

.09        .42      .16 

434 

+  23    5  I3-56 

64-5 

+  17.763-.  233 

—  .20 

-.008       o 

.IO         .39      .20 

7  Arietis 

435 

+     I   21    I5.OO 

64.0 

+  17.934-  .218 

-.16 

+.182-  I 

.IO        .41      .21 

* 

436 

+  17   1945-47 

56-1 

+  17.679-.  231 

-.18 

—  .026      o 

.07        .28     .17 

437 

-23      054.60 

79-8 

+  17.674—  .200 

—  .12 

—  .027       o 

•I0        -35      -IS 

56  Ceti 

438 

-52      623.91 

80.3 

+  17.983-.  172 

-.07 

+  .285-   5 

.IO        .49     .18 

h  3473.  i2M  6"  197° 

439 

+  48  42  55.  66"" 

72-5 

+  17.  730-  .267 

-.28 

+  .038       o 

.09        .28     .14 

3  Persei 

440 

+  64    8    6.13 

80.7 

+  I7.68I  -.308 

-.41 

—  .009      o 

.10      .56    .19 

B  A  C  588 

441 

+  23    630.03 

60.8 

+  I7.668-.  236 

—  .20 

—  .018       o 

.06    .23   .13 

* 

442 

-68    8  20.84 

79-8 

+  I7-777-.  112 

-.04 

+•093-  I 

.11     .53   .19 

21  G  Hydri  if 

443 

+  75    i    2.23V 

76.4 

+  17.652-.  383 

-•74 

—  .012       o 

.08    .35  .14 

* 

444 

-   2  32  50.34 

74-6 

+  17.686-  .218 

-•15 

+  .023       o 

.09     .37   .16 

58  Ceti  * 

445 

-47  52  25.22 

78.0 

+  I7.662-.  173 

-.08 

+  .OII—     I 

.13         .56      .22 

128  G  Phcenicis 

446 

+  70  25  19.74  - 

65-4 

+  17.634-  .343 

-•55 

+.006+  I 

.08         .25      .14 

48  Cassiopeiae  A  * 

447 

+  11  48  35.25 

75-o 

+  17-579-  -231 

-•17 

-•°35      o 

.08         .46      .18 

448 

—  26  55    6.48 

89-9 

+  17.621—  .2OO 

—  .11 

+  .035      o 

.l6      I.O5      .26 

10  G  Fornacis 

449 

+  71  56  14.85 

74-9 

+  17.603-.  360 

-.61 

+  .023+  I 

.03         .l8      .07 

50  Cassiopeiae 

450 

+   2  37    7.63 

65-7 

+  I7.334-.227 

-.16 

-.244-  I 

.08         .28      .15 

112  Piscium 

441  W.H.     7?7  37"  46°;  slow.                             443  2  185.     8"s  i'.'4  27°;  binary. 

444  ft  7.     UM  3"  11°.                                            446  ft  513.     4?7-7lf2  i"±  ;  rather  rapid  binary. 

20 


PRELIMINARY   GENERAL   CATALOGUE   OF   STARS   FOR    1900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i  and  100  AH 

Prob.  Errors. 

a  Ep.      IOO|i     aio 

M 

h    m        s 

s                 s 

s 

s 

tt              it           it 

451 

Br  272 

5-8 

i  55    3-9I9 

74-6 

+  2.8216—  .001  1 

+  .007 

+  .0001       o 

.13            .45         .21 

452 

Br  254 

5-5 

55    5-759 

65.2 

+  5.8S40+.3I92 

+  .458 

+.0387+11 

.11            .48         .24 

453 

uCeti 

4.1 

55  17-612 

79-6 

+  2.8270—  .0012 

+  .008 

+  .0093      o 

.06            .30         .11 

454 

Br  265 

6.0 

55  25-215 

65.0 

+  4.  4262  +  .1093 

+  •073 

+  .0006       o 

.13            .50        .26 

455 

Paris  2509 

5-9 

55  29-013 

94-8 

+2.9758+.  0035 

+  .006 

+  .0058       o 

.12            .78         .17 

456 

L  599 

5-6 

55  31-533 

90-5 

+  2.4751-.  0072 

+  .OII 

-  -0055      o 

.12             .69         .l8 

457 

Br  266 

5-8 

55  35-732 

78.2 

+4.3925  +  .1060 

+  .069 

+  .0014       o 

.09            .39         .15 

458 

a  Hydri 

2.9 

55  37-093 

67.8 

+  1.8901—  .0034 

+  .008 

+  •0355-   5 

.08            .38         .18 

459 

Br  269 

5-i 

55  38-322 

68.4 

+  3.9664+.  0639 

+  .030 

+  .0047       o 

.10        .38      .19 

460 

Br  259 

5-S 

55  57-598 

68.6 

+  S-5994+-2758 

+  •350 

—  .OO2O—     2 

.11             .42          .21 

461 

cr  Hydri 

6.4 

56    0.639 

82.9 

—  0.1827  +  .  1578 

-•340 

+  .0287-   8 

.10        .78      .23 

462 

TT  Fornacis 

5-5 

56  46.887 

85-0 

+  2.6808—  .0040 

+  .008 

—  .0078       o 

.12            .72          .21 

463 

a2  Piscium 

4.2 

56  52-336 

67-3 

+  3.ion  +  .oo84 

+  .OO6 

+  .0028      o 

.05             .24         .11 

464 

Br  264 

7-7 

56  54-391 

66.3 

+  5-3636+  -2343 

+  .272 

.0000          O 

.13             .51          .26 

465 

L  616 

6-3 

57    3-626 

82.3 

+  1.5690  +.0069 

—  .OO2 

+  .0029      o 

.l6            .80         .28 

466 

e  Trianguli 

5-7 

57    7.248 

72.8 

+  3.4923  +  .0286 

+  .009 

-.0013      o 

.11             .52          .22 

467 

X  Phcenicis 

5-i 

57  41-875 

71.7 

+  2.4083—  .0072 

+  .OII 

—  .0030       o 

.13            .62          .27 

468 

y1  Andromedae 

2.1 

57  45-496 

74-2 

+  3.  6649  +  .0394 

+•013 

+  .0042       o 

.03            .13          .06 

469 

y2Andromedae  m 

6.0 

57  46.338 

77-o 

+  3.6649  +.0394 

+  •013 

+  .0041       o 

.07             .48          .I? 

470 

Br  278 

5-9 

57  58-683 

64.0 

+  3-3957  +  -0223 

+  .007 

+  .OIO2         O 

.14            .54         .28 

471 

Br  280 

5-7 

58    3.906 

66.7 

+  3.0736+.  0073 

+  .006 

+  .0053       o 

.12         .45       -23 

472 

Pi  243 

6.6 

58  13-417 

72.4 

+  3.  2829+.  0168 

+  .006 

—  .0007       o 

.09            .51          .21 

473 

Br  281 

6.2 

i  58  40.989 

82.8 

+  3.  0682  +  .0071 

+  .006 

+  .0053      o 

.08            .42          .14 

474 

v  Fornacis 

4.8 

2     O     0.524 

82.4 

+  2.6909—  .0035 

+  .008 

+  .0009      o 

.IO           .64         .21 

475 

Br  274 

6.8 

o  29.752 

69.2 

+  5.0936+.  1797 

+  .165 

+  .0642+  8 

.08           .32         .15 

476 

K  Arietis 

5-3 

o  58.084 

76.4 

+  3-3477  +  -oi98 

+  .006 

+  .OOII         O 

.10        .32      .14 

477 

a  Arietis 

2.O 

I  32.058 

66.9 

+  3-3728  +  .0204 

+  .007 

+  .0137       o 

.02            .11         .05 

478 

Br  283 

6.0 

I  4I-372 

81.5 

+  4.I526+.077I 

+.038 

—  .0006       o 

.IO           .44         .16 

479 

L63i 

7-8 

2      4-389 

93-o 

+  2-5033  --0058 

+  .OIO 

+  .0008      o 

.13         I.38         .27 

480 

Br  288 

4.8 

2  26.989 

66.9 

+  3.605  1  +  .0337 

+  .OIO 

+  .0127+  I 

.14           .57         .28 

481 

Pi  256 

6.6 

3  24-938 

76.1 

+  3.9986+.  0623 

+  .026 

+  .0044      o 

.13            .64         .26 

482 

ft  Trianguli 

3-o 

3  35-443 

76-3 

+  3-5566+.  0305 

+  .008 

+  .0123      o 

.04           .18         .07 

483 

Br  291 

5-i 

3  43-7io 

59-o 

+  3-4053  +  -0223 

+  .007 

+  .0058      o 

.12            .48         .27 

484 

L  641 

7.0 

4    1-634 

91.1 

+  2.4445—  .0060 

+  .OIO 

—  .0002       o 

.13            .82         .20 

485 

Br  295 

7-4 

4    5-543 

82.6 

+  3.  03  2  1  +  .0064 

+.006 

-.0073      o 

.08            .54         .17 

486 

Br  282 

6.4 

4    7-9l6 

74-4 

+  5-42I2  +  .  2255 

+.238 

+  .0143+     2 

.10            .54         .22 

487 

L664 

7-i 

4  29.334 

82.8 

+  I.4878  +  .OIOI 

-.005 

—  .0019      o 

.18            .75          .27 

488 

Br  289 

6.6 

4  S1-0^ 

69.0 

+  4.I422  +  .0744 

+•033 

—  .001  1       o 

.09            .32          .l6 

489 

Br  293 

6.4 

4  48.690 

79-6 

+  3-6233  +  -°350 

+  .OIO 

—  .001  1       o 

.10        .34      .15 

490 

Br  294 

6.8 

4  49-525 

85.0 

+  3.6229  +  .0350 

+  .OIO 

—  .0017       o 

.12           .45        .17 

491 

Br  296 

6.1 

5    4-896 

77.1 

+  3-3I78+.OI77 

+  .006 

+  .0062       o 

.08           .34        .14 

492 

L  647 

6.0 

5    9-794 

90.2 

+  2.3978—  .0060 

+  .OIO 

—  .0045       o 

.18           .96        .26 

493 

Br  298 

6-3 

5  30.606 

65-4 

+  3-4037  +  .0222 

+  .007 

.0000      o 

.15           .62        .31 

494 

L653 

7.0 

5  42.367 

85-3 

+  2.4624—  .0056 

+  .OIO 

+  .0031       o 

.13        .86      .25 

495 

Br  302 

5-9 

6    4.249 

71.0 

+  3.i626+.oii4 

+  .006 

—  .0092       o 

.IO            .46         .21 

496 

Br  304 

6-3 

6  31.125 

67-3 

+  3.  044  1  +  .0066 

+  .006 

—  .0001       o 

.12             .51          .25 

497 

Br  30I1 

5-i 

6  34-009 

77-4 

+  3.  4696+.  0258 

+  .007 

—  .0048      o 

.08            .38          .15 

498 

Br  292 

6-3 

637-729 

83.2 

+  4.6517  +  .  1231 

+  .080 

—  .0002       o 

•05        -33      -io 

499 

Br  300 

5-i 

6  56.836 

66.0 

+  3.  7442  +  .0423 

+•013 

—  .0014      o 

.13            .46         .2$. 

500 

Br  299 

5-S 

2    6  57.038 

79-4 

+  3.9647  +  .0559 

+  .O2O 

+  .0365+    2 

.05            .26         .09 

463  S  202.     5*3  3"  318°;    slow  binary.  469-7'  is  a  binary;  55  yrs.  ±,  6^3-7^5,  <  i". 


CATALOGUE  OF  6 1 88  STARS  FOR  1 900 


21 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

K.'  and  100  A  p' 

Prob.  Errors. 
SEp.  loop'  Sio 

Remarks. 

451 

0              /                 // 

—  2i  18  38.00 

78.0 

+  17.587-.  205 

tr 
—  .12 

+  .014       o 

•13      -45    -19 

57  Ceti 

452 

+  7648  2.85 

60.6 

+  17.518-  .421 

-.88 

-.054-   3 

.10      .29    .17 

47  Cassiopeiae 

453 

-2i  33  44-5° 

75-1 

+  17.543-  .207 

—  .12 

—  .020—    i 

.07      .34    .14 

454 

+  6425    7.41 

53-8 

+  I7-553--318 

-.42 

—  .005       o 

•ii      -35    -23 

52  Cassiopeiae 

455 

—   90  29.46 

93-3 

+  17.  546-.  217 

-•'3 

—  .009      o 

.11      .73    .16 

456 

-42  3046-92 

87.8 

+  17.449—  .181 

-.09 

—  .104      o 

.11      .54    .16 

129  G  Phcenicis 

457 

+  63  54  25.53 

69.2 

+  I7-555--3I7 

-.42 

+  .005      o 

.09      .30    .15 

53  Cassiopeia 

458 

-62    3  22.55 

70.9 

+  17.594-.  143 

-•05 

+  .044-     2 

•07      -33    -i5 

459 

+  54    o  15.34 

53-7 

+  I7-552--287 

--31 

+  .003       o 

.10      .30    .20 

4  Persei  g 

460 

+  7538    3-8i 

65-7 

+  17.519-  .403 

-•79 

—  .016      o 

.10      .31    .17 

49  Cassiopeiae 

461 

-78  50  14.12 

83.2 

+  17.  589+.  004 

-.19 

+  .056-     2 

.08      .65    .19 

462 

—  30  28  56.46 

82.1 

+  17.388-.  197 

—  .10 

—  .112+     I 

.12         .58      .20 

463 

+   2  16  50.66 

67.2 

+  17.490—  .228 

-•15 

—  .006      o 

.05         .21      .10 

* 

464 

+  74    6  11.90 

59-6 

+  17-483-.  389 

-.72 

—  .012          0 

.11         .44      .25 

51  Cassiopeiae 

465 

-6633    3.36 

78.9 

+  17.511-.  119 

-.04 

+  .023       o 

.13         .63      .24 

26  G  Hydri 

466 

+  3248    7.71 

68.4 

+  17.469-  .256 

—  .22 

—  .017      o 

.08         .38      .l8 

S  201.   nM4"  116° 

467 

-45  ii  4I-51 

72.8 

+  17.415-.  180 

-.08 

—  .046       o 

.12         .56      .24 

468 

+  41  50  59.62  v 

68.1 

+  17.406—  .270 

-•25 

-  .052      o 

.03         .14      .07 

i 

L  ^   OOC      fi     O    Trt"  fit®  ^ 

469 

+  41  51    4.25 

72.8 

+  17-403-.  270 

-•25 

-  -055       o 

•07      -37    -IS 

|  •**   jJwS«    w  ,  LJ    L\J       U_< 

470 

+  25  27  13.18 

63-6 

+  17.465-.  252 

—  .20 

+  .Ol6—     I 

.11      .49    .25 

10  Arietis  * 

471 

—    O  21   12.83 

67.6 

+  17.470—  .229 

-•15 

+  .025       o 

.11         .39      .20 

60  Ceti 

472 

+  17  46  21.53 

71.7 

+  17.416-  .243 

-.19 

—  .022       o 

.08         .49      .21 

473 

—   o  49  11.17 

72.6 

+  I7-379-.229 

-•IS 

-  -039       o 

.08         .29      .13 

61  Ceti 

474 

—  29  46  36.06 

82.0 

+  17.363-.  204 

—  .IO 

+  .002       o 

.IO         .54      .l8 

475 

+  71    456.46 

62.3 

+  17.109-.  385 

-•59 

-•230-   5 

.08         .29      .16 

54  Cassiopeiae 

476 

+  22  IO  18.05 

74-i 

+  17.279-.  253 

-.19 

—  .040      o 

.09         .32      .14 

477 

+  22  59  22.60 

65-7 

+  17.  148-  .257 

—  .20 

—  .146—    I 

.02         .11      .05 

478 

+  575652.38 

76.7 

+  I7.295-.3H 

-•35 

+  .008       o 

.09         .34      .14 

479 

-40     056.93 

91.4 

+  17.257-.  193 

-.09 

-.013      o 

.12      1.32      .27 

480 

+  3723      5-17 

62.8 

+  17.212—  .276 

-•23 

—  .041—    I 

.11         .49      .26 

58  Andromedae 

481 

+  53  22  14.16 

70.1 

+  17.  164-.  306 

-•31 

—  .046      o 

.11         .44      .21 

Br  3226 

482 

+  34  30-5I-47 

73-4 

+  17.  156-  .274 

-•23 

—  .046—    I 

.04         .21      .09 

483 

+  25  28    0.46 

55-2 

+  17.  159-  .263 

—  .20 

-.037       o 

•14         -51      -31 

14  Arietis 

484 

—  42  21   17.78 

86.9 

+  17.  163-.  191 

-.09 

—  .019       o 

•ii      -57    -17 

131  G  Phosnicis 

485 

—     2  48  16.92 

77-2 

+  i7.i5i-.234 

-.14 

-.028+  I 

•09      -45    -17 

62  Ceti 

486 

+  73  33  27-00 

74-2 

+  17.141—  .416 

-•71 

-.037-  I 

.08      .38    .16 

487 

—  66  25  13.80 

80.6 

+  17.141—  .119 

-.04 

—  .020      o 

.13      .64    .23 

31  G  Hydri 

488 

+  57  10  24.40 

58.8 

+  17.170—  .319 

-•34 

+  .OIO         0 

.09      .28    .17 

5  Persei 

489 

+  3834    2.87 

65.5 

+  17.126—  .281 

-.24 

—  .021       o 

.08      .25    .14 

59*  Andromedae  * 

490 

+  38  34  16.69 

79-9 

+  17.117—  .281 

-.24 

—  .029       o 

.11      .42    .17 

592  Andromedae  * 

491 

+  19    i  43.06 

77.0 

+  17.107-.  259 

-.19 

—  .028       o 

•07      -35    -i4 

15  Arietis 

492 

-43  59  i8.79 

81.2 

+  17.079—  .189 

-.08 

-  -052       o 

.13      .57    .21 

132  G  Phrenicis 

493 

+  252754.88 

64.4 

+  17.104—  .266 

—  .20 

—  .on      o 

.12         .51      .26 

1  6  Arietis 

494 

—  41  20  19.00 

82.2 

+  17.077-  .194 

-.09 

—  .029       o 

.12         .69      .23 

133  G  Phoenicia 

495 

+86    5.68 

68.7 

+  16.982  -.248 

-.16 

-.108+  I 

.10      .37    .18 

64  Ceti 

496 

-   2  i?  43-53 

70.4 

+  17.043-.  240 

-•15 

—  .026      o 

.10      .41    .19 

63  Ceti 

497 

+  2950    3.80 

72.1 

+  17.005-.  272 

—  .21 

—  .062       o 

.07         .26      .12 

6  Trianguli  * 

498 

+  66    3  20.74 

75-8 

+  17.067-.  363 

-•47 

+  .003       o 

.05         .21      .09 

55  Cassiopeiae 

499 

+  43  45  45-50 

61.9 

+  17.042—  .294 

-.26 

—  .007       o 

•II         -37      -21 

60  Andromedae  b 

500 

+  5036    4.62 

69.8 

+  16.882-.  314 

-•3° 

-.168-   3 

.06         .23      .11 

6  Persei 

470  S  208.     8M  2"  to  o'.'y;  binary. 


489-490  S  222.     6"8  16"  39° 


497  2  227.     6»?4  4"  75° 


22 


PRELIMINARY   GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


Ho. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

(i  and  100  A  p. 

Prob.  Errors. 
a  Ep.      loop     aio 

M 

h    m        s 

s               s 

s 

s 

//                 n              it 

501 

tj  Arietis 

5-4 

2    7  12.030 

76.0 

+  3-3502  +  .oi89 

+  .006 

+  .OII2         O 

.08            .34         .14 

502 

Br3os 

6.1 

7  35-941 

66.9 

+  3.26s8  +  .oi5i 

+  .005 

+  .0067       o 

.IO            .42          .21 

503 

Pi  17 

8.7 

7  40.139 

74-5 

+  3.  06  1  8  +  .0064 

+  .006 

+  .0248      o 

.15            .62         .27 

504 

Br  308 

5-9 

7  40.975 

71.2 

+  3.  06  1  7  +  .0064 

+  .006 

+  .0247      o 

•08            .33         .15 

505 

Br  306 

4.6 

7  41-897 

73-6 

+  3.i747  +  .oii6 

+  .005 

—  .0017       o 

.04            .24         .IO 

506 

ft.  Fornacis 

5-4 

8  30.286 

85.0 

+  2.6438—  .0032 

+  .008 

+  .0018       o 

.06            .46         .13 

507 

Pi  22 

6.8 

9  52.118 

68.9 

+  4.1618  +  .  0726 

+  .030 

+  .0018      o 

.10        .54      .24 

508 

Br  312 

5-5 

10    1.226 

67.9 

+  3-5355  +  -0287 

+  .007 

—  .0013       o 

.13            .46         .23 

509 

Br3i5 

5-7 

10    2.259 

64-3 

+  3.3948  +  .  0215 

+  .006 

—  .OO6l—     I 

•14           -57         -30 

510 

Br  314 

6.0 

10    2.416 

66.3 

+  3-4258+.0222 

+  .006 

+  .0136      o 

.13            .60        .29 

5" 

L  709 

7.0 

IO  2I.8l2 

80.4 

—  0.0401  +  .  1  221 

—  .220 

+  .0289—   9 

.IO           .72         .24 

5« 

L  682 

6.2 

10  29.145 

87.8 

+  2.4289—  .0050 

+  .009 

—  .0031       o 

.13            .70        .20 

5i3 

Br  310 

6.1 

10  54-988 

72.8 

+  4.2I25  +  .0758 

+•032 

+.0087+  I 

.14            .48         .22 

5H 

8  Trianguli 

5-i 

10  56.857 

63-4 

+  3.  648  1  +  .0304 

+  .007 

+  .0925+  4 

.09            .34         .18 

5i5 

Br3n 

6-3 

II      2.2l8 

80.9 

+  4.i873  +  .o742 

+  •031 

—  .0009      o 

.10        .42      .16 

5i6 

Dpt  217 

7-4 

II   19.763 

85.8 

+  2.9591  +  .0036 

+  .005 

+  .0182       o 

.12             .50         .17 

Si? 

y  Trianguli 

4.1 

II  22.OO5 

82.9 

+  3-5534+  -0292 

+  .007 

+  .0034      o 

.06            .39         .12 

5i8 

Br32i 

5-9 

II  59.696 

77-4 

+  2.9906+  .0049 

+  .005 

+  .0061       o 

.03            .26         .09 

5i9 

Br3i6 

6.9 

12      2.859 

7i-3 

+  4.i8o9  +  .o728 

+  .029 

+  .OOI2         O 

.10        .54      .23 

520 

L  701 

5-6 

12      8.914 

82.0 

+  1.245  1  +  .0208 

—  .019 

+  .0045       o 

.l6            .78         .28 

521 

6  Arietis 

5-7 

12  33.676 

77.0 

+3.3292  +  .oi8o 

+.005 

—  .0010      o 

.05        .27      .10 

522 

Br3i9 

5-4 

12  49-448 

77-6 

+  3.8494  +  .047  7 

+  .014 

—  .0056—    I 

.09      .34     .14 

523 

Pi  52 

5-8 

12  49.663 

74-7 

+  3.  1  133  +  .0086 

+.005 

+  .0245+  I 

.10         .50       .20 

524 

4>  Eridani 

3-8 

12  56.205 

75-7 

+  2.  1  438  -.0045 

+  .009 

+  .0081  A-  I 

.11        .48      .20 

525 

L688 

7-1 

13      S-SSS 

86.5 

+  2.5447  -.0040 

+.008 

+  .0139      o 

.10        .69      .19 

526 

Br  322 

5-4 

13      9.164 

69.4 

+  3.4662  +  .0244 

+.006 

+  .0009      o 

.14      .51     .25 

527 

L  706 

5-7 

13  23-285 

83-5 

+  1.2362  +  .0208 

—  .019 

+  .0016      o 

.16      .84     .28 

528 

Br327 

7.2 

13  35-070 

64.9 

+  3-3284+.OI78 

+.005 

—  .0005      o 

.18      .54     .30 

529 

Br32S 

6.4 

14  12.889 

64.2 

+  3-8605  +  .0477 

+  .014 

+  .0001       o 

.15        .68      .34 

530 

oCeti 

Var. 

14  17.644 

75-9 

+  3.0279  +  .  0062 

+  .005 

—  .0001  —    I 

.04           .21         .08 

53i 

Br  324 

5-8 

14  20.768 

64.6 

+  3.  9484  +.053  5 

+.016 

+  .0045      o 

.13            .44         .24 

532 

Pi  59 

6.7 

14  29.665 

86.0 

+  2.6875—  .0008 

+  .007 

—  .0172+  3 

.IO           .62         .18 

533 

Br323 

6.8 

1451.225 

76.1 

+  4.2050+.0732 

+.028 

—  .0002      o 

.10        .51       .20 

534 

Br  326 

5-3 

15  22.903 

68.4 

+  4.  1514+.  0686 

+.025 

+  .0006      o 

.IO            .44         .21 

535 

Br328 

7.2 

15  54.810 

73-9 

+4.2205  +  .  0738 

+.028 

+  .OOII         O 

.12            .45         .20 

536 

Pi6i 

6.1 

16  36.705 

69.8 

+  3-7I56+.0379 

+  .009 

—  .0076—    I 

.11             .56         .25 

537 

L7i7 

6.0 

16  39-758 

87.6 

+  1.9436—  .0014 

+  .007 

+  .OOII         O 

.14        .88      .24 

538 

Pi  62 

7-5 

16  39.858 

69.8 

+3.7261  +  .0382 

+  .009 

+  .0008       o 

.18       .62     .31 

539 

Br333 

5-8 

16  49.161 

67.4 

+  3-07I2  +  .0079 

+  .005 

—  .0003      o 

.11             .40         .21 

540 

Br335 

5-8 

17    6.638 

67.9 

+  3.0529  +  .  0073 

+  .005 

—  .0018      o 

.14            .51          .26 

54i 

Paris  2948 

5-7 

17    8.001 

93-8 

+  2.  93  24  +.003  5 

+  .005 

+  .0096—    I 

.11             .78         .I? 

542 

Br33i 

5-5 

17  46.048 

62.8 

+  3-96i5  +  .o53i 

+  .015 

+  .0025       o 

.13            .44         .24 

543 

K  Fornacis 

5-5 

17  58.016 

87.8 

+  2.  7458-.  0007 

+  .007 

+.0147-  I 

.06            .48         .12 

544 

Br33o 

6-5 

18  12.131 

69-3 

+  4.2022  +  .071  1 

+.025 

—  .0005       o 

.14            .42          .22 

545 

Br334 

5-o 

1857.021 

75-6 

+  3-9770+-0537 

+  .015 

+  .0027       o 

•09        -33      -IS 

546 

(  Arietis 

5-6 

19  27.320 

66.8 

+  3-2IOO+.OI27 

+  .004 

+  .0008      o 

.08            .36         .18 

547 

Br  339 

6-5 

I955-I47 

68.0 

+  3.  0298  +.0066 

+  .005 

+  .0007       o 

.14            .51          .26 

548 

SHydri 

4-3 

19  58.049 

71.9 

+  1.0536  +.0290 

—  .029 

—  .OI02+    2 

.IO            .46         .20 

549 

L  739 

7.0 

20  15.780 

85-1 

+  1.8807     -oooo 

+.005 

+  .0029      o 

.15            .84         .26 

550 

i  Cassiopeiae 

4-5 

2  2O  49.270 

69.8 

+  4.  8827  +  .  1322 

+.077 

—  .0006      o 

.03             .22         .IO 

503-4  S  231- 


16"  232° 


534/3875.     i2Mia"i6o°. 


CATALOGUE   OF   6 1 88   STARS   FOR    1 900 


Ho. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'and  100  A(i' 

Prob.  Errors. 
SEp.  loop.'  Sio 

Remarks. 

501 

Of                /' 

+  20  44  28.10 

73-2 

a           a 
+  17.040—  .266 

-.19 

+  .002—     I 

rr               it             if 
.07           .30       .13 

502 

+  14  48  40.28 

56.2 

+  16.997-.  259 

-.18 

—  .022       o 

.Og           .30       .l8 

19  Arietis 

503 

-     2  SI  49.70 

78.2 

+  16.974-  .245 

-.14 

—  .042—    2 

.12         .65      .24 

66'  Ceti  * 

504 

-   2  51  39-77 

67.0 

+  16.961—  .245 

-.14 

-.054-     2 

.07         .25      .13 

662  Ceti  * 

505 

+    8  22  39.64 

69.9 

+  17.008—  .252 

-.16 

—  .007       o 

.04         .20      .09 

65  Ceti  ? 

506 

-31    II   34.36 

81.6 

+  16.979—  .212 

—  .10 

+  .OO2          O 

.08         .49      .l6 

507 

+  5635  24.45 

62.6 

+  16.914-.  333 

-•35 

.000         0 

.14         .45      .26 

1M  civ$T£ft  A  first 

508 

+32  53  38.91 

70.7 

+  16.875-.  284 

—  .22 

-.031       o 

.IO         .47      .21 

7  Trianguli 

509 

+  24  34  46.37 

61.3 

+  16.819—  .273 

—  .20 

—  .087       o 

•!3      -55    -3° 

21  Arietis 

Sio 

+  25  19    7.97 

62.0 

+  16.845-.  277 

—  .20 

—  .060—   I 

.12         .47      .26 

20  Arietis 

5" 

-77    535-37 

82.0 

+  16.913—  .006 

-.16 

+  .023—     2 

.09         .63      .20 

32  G  Hydri 

512 

-4i  37  57-05 

84.1 

+  16.85  1  -.198 

-.08 

-  -033       o 

.11         .53      .18 

135  G  Phcenicis 

Si3 

+  57  26  10.02 

65.7 

+  16.884—  -34° 

-•35 

+  .O2O—     I 

.12         .40      .21 

8  Persei 

SH 

+  33  45  59-65 

62.9 

+  16.617—  .302 

—  .22 

-.246-  8 

.07         .30      .16 

5i5 

+  57    3  10.10 

72.0 

+  16.859-  .337 

-•35 

+  .OOI          O 

.09         .27      .14 

7  Persei  (x)  ;  ohisto  hsio 

5i6 

—  10  17    5.96 

80.2 

+  16.806—  .242 

-•13 

-.039-     2 

.IO         .41      .l6 

2242.  9M54"233° 

Si? 

+  33  23    4.97 

78.9 

+  16.792-.  288 

—  .22 

—  .051       o 

.06        .34     .12 

5i8 

—   6  52  58.62 

76.6 

+  16.705-.  245 

-.14 

—  .108      o 

.04        .26      .IO 

67  Ceti 

SIQ 

+  564023.85 

68.9 

+  i6.8oi-.339 

-•35 

—  .009       o 

.11         .42      .20 

In  Cluster  A.  Pe««» 

520 

-68  18  29.62 

81.6 

+  16.855—  .106 

-•05 

+  .049      o 

.14        .65      .23 

35  G  Hydri  ir1 

521 

+  19  26  18.86 

71.6 

+  16.780—  .272 

-.18 

—  .006      o 

.05         .21      .IO 

522 

+  4655    6.71 

69.4 

+  16.762-.  314 

-.28 

—  .Oil         O 

.IO        .29      .16 

62  Andromedae  c 

523 

+   i  17    5.82 

73-7 

+  17.  150-.  257 

-•15 

+  •377-   2 

.IO        .47      .20 

524 

-51  5830.21 

73-7 

+  16.739-.  179 

-.06 

—  .029—    i 

.09        .40     .17 

525 

-36  26  49.58 

83-7 

+  16.810—  .212 

-.09 

+  .050-   i 

.10      .59    .18 

21  G  Fornacis 

526 

+  28  10  52.11 

66.7 

+  16.756-.  284 

—  .21 

—  .002      o 

.12         .49      .24 

10  Trianguli 

527 

-681235.48 

82.1 

+  16.740—  .106 

-•05 

—  .006      o 

.14         -67      .23 

36  G  Hydri  ir2 

528 

+  19  13  48.11 

54-o 

+  16.621—  .274 

-.18 

—  .116      o 

.13         .40      .26 

23  Arietis 

529 

+  46  51    5.30 

63.8 

+  16.701-.  318 

-.28 

-  .005      o 

.14      -54    -29 

530 

-   3  25  54-03 

76.2 

+  16.466—  .251 

-.14 

-.237      o 

.04         .24      .09 

Mira.     2*5  to  IOM 

S3i 

+  49  41  34.60 

57-2 

+  16.677—  .326 

-•30 

-  .023      o 

.11         .32      .20 

63  Andromedae 

532 

—  26  25    7.61 

84.1 

+  17.  143-.  223 

—  .IO 

+  .450+  I 

.10      .53    .17 

22  G  Fornacis 

533 

+  5647    4.44 

75-8 

+  16.665-.  347 

-•36 

—  .on      o 

.09         .51      .20 

MtLMftHjL  fknei 

534 

+  55  23  16.87 

Si-2 

+  16.650-.  344 

-•34 

.000      o 

.11         .37      .24 

9  Persei  i  * 

535 

+  565548.83 

72.6 

+  16.625-.  351 

-•36 

+  .OOI          O 

'.10      .41    .18 

/#  c/osflF/e  jC  P«rst* 

536 

+  40  56  33.45 

68.2 

+  16.496—  .310 

-•25 

-.094+  I 

.10         .45      .21 

537 

—  56  24  14.29 

82.5 

+  16.611—  .166 

-•05 

+  .024      o 

.11         .56      .19 

i  G  Horologii  * 

538 

+41    i  25.81 

54-8 

+  16.588-  .312 

-•25 

+  .OOI         0 

.16         .48      .31 

539 

-  o    3  40.39 

70.8 

+  16.574-.  259 

-.14 

-.005      o 

.08         .32      .15 

69  Ceti 

540 

—   i  20  24.72 

65-5 

+  16.517-.  257 

-.14 

—  .048      o 

.11         .38      .20 

70  Ceti 

541 

-ii  13  55.92 

91.0 

+  16.469—  .249 

-•13 

-.095-  I 

.IO         .6l      .15 

542 

+  49  33  IO-7° 

57-3 

+  16.493-.  334 

-.29 

—  .040      o 

.11         .32      .20 

64  Andromedae 

543 

-  24  16  14.34 

86.7 

+  16.462-  .235 

—  .10 

—  .061—   I 

.06      .37    .10 

544 

+  56    9  22.45" 

64.1 

+  16.522-.  354 

-•35 

+  .OII         0 

.12         .40      .22 

10  Persei 

545 

+  49  49  33-77 

65.8 

+  16.458-  .338 

-•30 

—  .016      o 

.10      .27    .16 

65  Andromedae 

546 

+  10    9  28.09 

66.4 

+  16.434-.  275 

-.16 

—  .015      o 

.08         .35      .17 

i/rCeti 

547 

-   3  13  57-53 

67.2 

+  16.420—  .260 

-.14 

-.005      o 

.11         .39      .20 

71  Ceti 

548 

—  69    6  52.16 

73-8 

+  16.435-.  094 

-•05 

+  .OI2+     I 

.09         .43      .18 

549 

-57  16    4.63 

82.5 

+  16.439-.  165 

-•05 

+  .031       o 

.12         .65      .22 

2  G  Horologii 

550 

+  66  57  10.57 

69.4 

+  16.394—417 

-•52 

+  .014      o 

.04         .21      .09 

* 

537  h  3497-     n 


33"82° 


550  2  262.     7"1  2"  252°;  S»i  7"  111°. 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    1900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  100  A  p. 

Prob.  Errors. 
oEp.     icoji    a  10 

M 

h    m         s 

s                s 

s 

s 

/'                   fr                ft 

551 

pCetl 

S-o 

2  21      7.107 

76.2 

+  2.  8961  +  .003  2 

+  .006 

—  .0017       o 

.08               .33           .I4 

552 

Br337 

6-5 

21      9.044 

77.1 

+  4.0004  +.054  2 

+  .015 

+  .0040—    i 

.10        .36      .16 

553 

Dpt  238 

6.0 

21    I5.l6l 

92.4 

+  2.8499  +  .O022 

+  .006 

-  .0039      o 

.13      .57     .16 

554 

Br  341 

7-1 

21    23.753 

66.0 

+  3-2I32  +  .OI27 

+  .004 

+  .0029       o 

.11        .48      .24 

555 

Br  340 

5-9 

21   32.177 

84.1 

+  3-54I4+.027I 

+  .006 

—  .0024      o 

.10        .40      .15 

556 

Br  345 

6.8 

22      4-137 

68.0 

+  3-i86i  +  .oi23 

+  .004 

—  .0197—   I 

•I0        -33      -17 

557 

X  Horologii 

5-6 

22      6.056 

85.8 

+  1.6731  +  .0043 

+  .00  1 

—  .0120      o 

.12            .63          .20 

558 

K  Hydri 

6.2 

22  16.184 

89.0 

+0.3205  +  .0766 

-.105 

—  .0230+  6 

.14        .88      .23 

559 

Br  342 

5-5 

22  18.072 

67.9 

+  3-S059+-0251 

+  .006 

—  .0014—    i 

.12            .48         .24 

56o 

fCeti 

4-4 

22  50.455 

75-4 

+  3.i847  +  .on6 

+  .004 

+  .0026      o 

.03            .18         .07 

56i 

Br346 

6.2 

22  56.340 

85-4 

+  3.5081  +  .0255 

+  .005 

-  .0055      o 

.13            .42          .16 

562 

Pi  60 

8.0 

23      2.873 

67.1 

+  8.I296+.6778 

+1.251 

+  .0110+   5 

.11             .40         .21 

563 

K  Eridani 

4-5 

23   I9-190 

74-2 

+  2.2OOO—  .0033 

+  .008 

+  .0012          0 

.11             .51          .21 

564 

<t>  Fornacis 

5-3 

23  47.886 

84.4 

+  2-5394-  -0025 

+  .008 

+  .0015       o 

.11             .63          .20 

«65 

Pi  96 

6.1 

2447.094 

80.7 

+  3-442i  +  .o2i6 

+.005 

+  .0052      o 

.09            .48         .l6 

566 

Br  349 

6.4 

25      1-805 

66.6 

+  3-3558  +  -OI79 

+  .004 

+  .0050      o 

.14            .40         .22 

567 

Pi  104 

6.9 

25  2I.4OI 

84.7 

+  2-74O9+.OOO2 

+  .006 

+  .0068      o 

.13            .72          .22 

568 

Br3Si 

6.6 

25  21.486 

7i-5 

+3.3209+.  0165 

+  .004 

+  .0025       o 

.07             .36         .16 

569 

Pi  1  06 

6.8 

25  43-985 

83.8 

+  2.6982—  .0005 

+  .006 

+  .0067       o 

.13        .68      .22 

570 

Pi  107 

6.7 

25  59-24I 

81.3 

+  2-736o  +  .ooo2 

+  .006 

+  .0009       o 

.14        .68      .24 

57i 

Br  350 

5-5 

25  59-793 

77-o 

+  3.  6468  +  .03  1  5 

+.005 

+  .0032       o 

.10        .44      .17 

572 

PulkM  363 

5-6 

26  19.693 

87.9 

+  3.  0985  +  .0088 

+  .004 

+  .0008       o 

.10        .48      .15 

573 

Pi  100  m 

6.9 

26  27.340 

82.0 

+  4.0869  +  .0583 

+  .015 

—  .0008      o 

.11        .51      .18 

574 

Br3S4 

5-7 

27    4.017 

65-5 

+  3.  0502  +  .007  5 

+  .004 

—  .0015       o 

.11        .45      .23 

575 

<rCeti 

4-9 

27  20.838 

73-7 

+  2.  8419+.  OO23 

+  .006 

-  -0055       o 

.07        .32      .14 

576 

Br3S2 

6-3 

27  25.431 

66.2 

+  3.2799+.oi5i 

+  .004 

—  .0011          O 

.10        .36      .19 

577 

Br348 

5-5 

28  30.993 

75-3 

+  5.6075  +  .2059 

+  .152 

—  .0050       o 

.03            .21          .08 

578 

L7«5 

7-5 

28  32.690 

79-5 

+  2.2218—  .0027 

+  .007 

—  .0059      o 

.14            .82          .29 

579 

L  781 

6.1 

28  56.834 

87.4 

+  2.5016—  .0022 

+  .007 

—  .0026      o 

.10        .66      .18 

580 

to  Fornacis 

5-° 

29  27.950 

82.8 

+  2.6271—  .0009 

+  .007 

—  .0017       o 

.12            .69         .22 

58i 

Dpt  249 

6.0 

29  29.015 

96.5 

+  3.68i6  +  .0327 

+.005 

+  .0008      o 

.12            .78         .16 

582 

Br3S7 

5-8 

29  42-524 

73-3 

+  3.  6278+.  0298 

+  .005 

+  .0024       o 

.09           .38         .16 

583 

Pi  118 

6-5 

29  46.303 

67.4 

+  3.I7IO+.OIH 

+  .004 

—  .0016      o 

.13            .57         .28 

584 

Br3S9 

6.1 

29  46.575 

69.2 

+  2.  9581  +  .0050 

+  .005 

+  .0042       o 

.14           .52         .26 

585 

Pi  115 

7.6 

29  55-726 

79-7 

+  4.0963  +  .0574 

+•013 

+  .0007       o 

.09           .39         .15 

586 

Br363 

7.2 

3°  iQ-oSS 

71.9 

+  3.oo54+.oo63 

+  .004 

—  .OIOI—     2 

.10        .36      .17 

587 

L  799 

6-5 

30  30.208 

89.6 

+  2.0438—  .0013 

+  .006 

—  .0016      o 

.15            .80         .22 

588 

Pi  123 

6.2 

3°  35-758 

76-5 

+  3.2848+.OI23 

+  .004 

+  .1208+  7 

.05            .32          .12 

589 

vCeti 

5-1 

3°  37-508 

71.8 

+  3-I439+.OI03 

+  .004 

—  .0021       o 

.05            .28         .12 

59« 

Br36S 

5-9 

31    4.668 

67-5 

+  2.  9509  +  .0050 

+  .004 

—  .0025       o 

.14            .50        .25 

591 

Br364 

5-9 

31  10.631 

70.4 

+  3.  2660+.  0137 

+  .003 

+  .0194      o 

.07            .28         .13 

592 

Br  360 

7-3 

31  11.546 

77-6 

+  3.45i8  +  .02i2 

+  .004 

+  .OIII         0 

.12            .58         .22 

593 

Br36i 

6.9 

3i  14-363 

79-4 

+  3-45IO+.02I2 

+  .004 

+  .OIO2         0 

.08           .42         .15 

594 

L798 

6.0 

3i  50-613 

85-9 

+  2.5883—  .0011 

+  .006 

—  .0002       o 

.14            .70         .22 

595 

Br368 

6.0 

32  39-474 

78-4 

+  3.0200  +.0066 

+  .004 

+  .0029      o 

.09            .42          .l6 

596 

L8oS 

6.0 

32  49-491 

81.2 

+  2.4923—  .0021 

+  .007 

—  .OOI  I—     2 

.14            .72          .25 

597 

v  Arietis 

5-6 

33    8-158 

83.1 

+  3-3984+-oi92 

+  .004 

—  .0006      o 

.04            .26         .08 

598 

L8o3 

7.2 

33  I3-035 

87.6 

+  2-7i35  +  .ooo6 

+  .006 

+  .OOOI         O 

.13         I.O2         .26 

599 

Br  344 

6.1 

33  20.935 

73-2 

+  8.3300+.  6595 

+  1.072 

+  .0089-   7 

.06           .30        .13 

600 

Br3S8 

7-6 

2  33  46.583 

67.8 

+  5.0922  +  .1388 

+  .068 

+  .0003      o 

.15            .63         .30 

CATALOGUE  OF   6 1 88   STARS   FOR    IQOO 


25 


No. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3dt 

H.'  and  100  A  n' 

Prob.  Errors. 
SEp.  100  (i/  Sio 

Remarks. 

0             /                 // 

/>                      // 

„ 

„ 

n         n        „ 

551 

-12  44  29.35 

73-5 

+  16.356-.  251 

—  .12 

—  .009       o 

.08      .32    .14 

552 

+  50    7  21.57 

68.4 

+  16.266—  .344 

-•3° 

—  .098       o 

.10      .27     .15 

66  Andromedae 

553 

-1547  27.19 

81.0 

+  16.307-  .247 

—  .12 

-.051       o 

.13       .44    .18 

W.H.    9Mi2"295° 

554 

+  10    6  54.17 

61.6 

+  16.326—  .278 

-.16 

—  .025      o 

.11       .53     .28 

OS  8M  74"  32° 

555 

+  31   21      8.05 

78.4 

+  16.310—  .306 

—  .21 

-  -034      o 

•09      -33    -14 

ii  Trianguli 

556 

+  9  45  i6.n 

62.0 

+  16.115-.  275 

-.16 

—  .202+     2 

.10      .34    .19 

25  Arietis 

557 

-  60  45  34.40 

82.6 

+  i6.i8o-.i48 

-•°5 

-•'35+   i 

.11         .59      .20 

558 

-74    555.40 

83.8 

+  16.306—  .032 

—  ,IO 

—  .OOI+     2 

.11     .54  .18 

559 

+  29  13  22.71 

67.1 

+  16.218—  .304 

—  .21 

—  .087       o 

.09      .40    .19 

12  Trianguli 

560 

+  80  42.79 

74.6 

+  16.274—  .278 

-.16 

—  .004      o 

.03    .17  .07 

73  Ceti  P 

56i 

+  292855.09 

75-5 

+  16.343-.  305 

—  .21 

+  .070      o 

.11     .34  .16 

13  Trianguli 

562 

+  81  12    6.30 

61.0 

+  16.265—  .700 

-1.89 

—  .002—    I 

.10        .37      .21 

563 

-48    9    9.59 

77.8 

+  16.240—  .195 

-.06 

-.013      o 

.09        .49      .18 

564 

-34  15  32.42 

77.0 

+  16.241—  .224 

-.09 

+  .012          O 

.12         .57      .22 

565 

+  2447  3°-72 

75-4 

+  16.095  -.304 

—  .20 

-  .083      o 

.08         .30      .13 

5  271.  IIM  I2"i8i° 

566 

+  19  24  40.97 

63-4 

+  16.132—  .296 

-.18 

-  -033      o 

.12         .39      .22 

26  Arietis 

567 

-  23    7  42.65 

79-7 

+  16.149—  .244 

—  .10 

+  .001—     I 

.12         .56      .20 

2576  Ceti  (Fornax) 

568 

+  17  15  41.28 

65-4 

+  16.051—  .294 

-•17 

-.097      o 

•07      -33    -16 

27  Arietis 

569 

-2537  56.02 

85-3 

+  16.153-.  241 

—  .IO 

+  .024—  I 

.11         .57      .18 

30  G  Fornacis 

570 

-22  59  20.36 

80.4 

+  16.073-.  244 

—  .10 

—  .042       o 

.12         .60      .22 

258  G  Ceti  (Fornax) 

571 

+  35  42  13.02 

7i-3 

+  16.120—  .323 

-•23 

+  .005      o 

.09         .35      .16 

14  Trianguli 

572 

+   i  49  26.09 

87.1 

+  16.094—  .276 

-.14 

—  .004      o 

.IO         .46      .14 

573 

+  51  52    2.28 

74-4 

+  16.084—  .362 

-•32 

—  .007       o 

•09      -34    -IS 

* 

574 

-    i  28  35.10 

64.6 

+  16.030-  .273 

-.14 

—  .029       o 

.09      .33    .18 

75  Ceti 

575 

—  15  41    0.67 

71.9 

+  15.927-.  254 

—  .12 

—  .117       o 

.07      .28    .13 

576 

+  I43530-S4 

60.2 

+  16.073-.  294 

-•17 

+  •033      o 

.10        .39      .22 

29  Arietis 

577 

+  72   22   51.57 

77-3 

+  16.003  -.500 

-•74 

+  .O2O         O 

.04         .22      .08 

36  H  Cassiopeiae 

578 

—  46  18  42.61 

78.4 

+  15.961—  .202 

-.06 

—  .020         0 

.11         .67      .24 

579 

-35    523-23 

82.5 

+  15.940-.  227 

-.08 

—  .020      o 

.IO         .60      .19 

33  G  Fornacis  A.1 

58o 

—  28  40  18.29 

81.0 

+  I5.9I5-.  239 

-.09 

—  .018      o 

.11         .63      .21 

h35o6.    8Mii"2430 

58i 

+  3652  28.89 

90.1 

+  15.932-.  333 

-.24 

.000      o 

.12         .51      .l6 

5279.    IIM  17"  72° 

582 

+  34  15    4-64 

69.2 

+  15.866-.  328 

-•23 

-  -054      o 

.08         .31      .15 

15  Trianguli 

583 

+   72    9.64 

67.4 

+  15.812-.  287 

-•15 

—  .104      o 

.13         .58      .28 

584 

-   8  17  46.13 

68.6 

+  15.851-.  269 

-•13 

—  .065       o 

.11         .42      .21 

77  Ceti 

585 

+  51  31  28.49 

77.0 

+  15.896-.  370 

-•32 

—  .012          0 

.09         .34      .14 

Br  3228 

586 

-   3  59    9-69 

70.0 

+  15.461-.  273 

-.14 

—  .426+     I 

.08         .30      .14 

79  Ceti 

587 

-51  31  52.76 

86.3 

+  15.856-.  188 

-•05 

—  .021          0 

.12         .6l      .19 

7  G  Horologii 

588 

+  6  24  34.66 

75-5 

+  17-335-  -31° 

-•15 

+  1.463-11 

.05         .32      .12 

589 

+   5    9  24.68 

67.8 

+  15.842-.  286 

-•15 

—  .029       o 

.06         .26      .12 

2  281.     9M  8"  83° 

59« 

-   8  15  59-85 

71.2 

+  15.781—  .270 

-•13 

—  .066      o 

.11         .46      .21 

80  Ceti 

591 

+  12      O  50.42 

69.0 

+  I5-7S6-.  300 

-.16 

-.085-     2 

.07         .27      .13 

31  Arietis 

592 

+  24   12  45.09 

75-8 

+  15.832-.  316 

-.19 

—  .OOg—     I 

.09         .51      .20 

(S  5.  App.  38"  274° 

593 

+  24  12  43.08 

73-9 

+  15.828-  .316 

-.19 

—  .OIO—     I 

.07         .30      .13 

(30  Arietis 

594 

-  30  28  50.69 

82.8 

+  15.803-.  239 

-.09 

-  .003       o 

.12         .6l      .20 

35  G  Fornacis  i1 

595 

-   3  49  44-52 

75-7 

+  15.720-  .279 

-•13 

—  .042      o 

.08         .38      .16 

8  1  Ceti 

596 

-35    o  19.58 

72.6 

+  15.474-  .231 

-.08 

-.279      o 

•IS      -73    -3° 

36  G  Fornacis  X2 

597 

+  21  31  44-34 

78.8 

+  I5-7I3-  -313 

-.18 

-  .023       o 

.04      .26    .09 

598 

-23  25  36.48 

87.2 

+  15.763-.  252 

—  .10 

+  .032       o 

.13      1.  12      .29 

278  G  Ceti 

599 

+  81     i  29.55 

74.8 

+  15.655-.  761 

-1-95 

—  .069—    I 

.08         .34      .14 

Groomb  527 

600 

+  67  38    6.68 

66.7 

+  15.  689  -.468 

-•56 

—  .012         O 

•II       -47     -23 

573  OS  42.     1*4-8*0  <  o'.'s  110°  ±. 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

|iand  100  A  n 

Prob.  Errors. 
aEp.      loop     aio 

M 

b    m         s 

s                s 

5 

s 

//              //           // 

601 

/*  Hydri 

5-5 

2  33  46.944 

77.1 

-1.3882+.  2507 

-•493 

+  .0430-21 

.07            .57         .20 

602 

L8u 

6.0 

33  59-971 

83.8 

+  2.5882—  .0012 

+  .006 

+  .0084—    I 

.15            .92         .28 

603 

i)  Horologii 

5-4 

34    6.434 

85-1 

+  1^765—  .0002 

+  .005 

+  .0079—   I 

•13        -75      -23 

604 

SCeti 

4.1 

34  21-352 

76.3 

+3.  07  1  5  +  .0082 

+  .004 

+  .0007      o 

.04            .21          .08 

605 

tCeti 

5-i 

34  43.606 

70.7 

+  2.  9006  +  .0036 

+  .005 

+  .0103—     I 

.08            .28         .14 

606 

Br  370 

5-6 

34  50.25)2 

76.2 

+  3-4967  +  .0229 

+  .004 

+  .0053      o 

.10        .30      .14 

607 

Pi  148 

6-5 

34  59-258 

60.6 

+  3.i589  +  .oio6 

+  .004 

+  .0033      o 

•14        -57      -32 

608 

Paris  3317 

6.1 

35  20.463 

93-7 

+  2.9159+.  0045 

+  .004 

—  .0105      o 

.14        .78      .19 

609 

Br369 

5-9 

35  53-3°° 

78.4 

+  4.2644+.  0658 

+  .015 

+  .0058      o 

.10        .39      .16 

610 

Br37i 

5-i 

35  56-022 

73-7 

+  3-7709+-03S8 

+  .005 

—  .0012—    I 

.10        .39      .17 

6n 

LSz? 

4-9 

35  59-I99 

80.  i 

+  2.2866—  .0022 

+  .006 

+  .0074-  I 

.13        .66      .24 

612 

Br378 

5-9 

36    6.517 

77-9 

+  3.0699+.  0076 

+  .004 

+  .0140—    I 

.10        .48      .18 

613 

Br  366 

6.1 

36  12.958 

81.7 

+  5.0989  +  .1364 

+  .063 

+  .0037       o 

.06        .42      .13 

614 

i  Eridani 

4.1 

36  43-257 

82.2 

+  2.3673—  .0021 

+  .006 

+  .0106—    I 

.10        .51      .17 

615 

/j.  Arietis 

5-9 

36  43-564 

72.2 

+  3-375o+.oi79 

+  .003 

+  .OO22         O 

.08        .34      .15 

616 

Br38i 

6-5 

37    5-775 

66.7 

+3.  2240+.  0128 

+  .003 

—  .0023      o 

-13        -So      -25 

617 

0  Persei 

4.2 

37  21-963 

75-i 

+  4.0746  +  .05  13 

+  .008 

+  •0343+    2 

.03        .16      .07 

618 

£  Horologii 

5-4 

37  32-907 

80.8 

+  1.8662  +  .0017 

+  .004 

+  .0040       o 

.16        .70      .26 

619 

Br376 

5-7 

37  34-190 

64.6 

+  3-8877  +  .04I9 

+  .006 

.0000      o 

.14        .50      .27 

620 

Br  380 

4-7 

37  34-874 

81.6 

+  3-5IOI  +  .0233 

+  .003 

+  .0003      o 

.07            .36         .12 

621 

e  Hydri 

4-3 

38    2.060 

73-7 

+0.9086  +.0334 

-•033 

+  .0167-   3 

.11            .48         .21 

622 

•yCeti 

3-5 

38    7.087 

67.8 

+  3-I044+.0092 

+  .003 

—  .0098—    i 

.03            .18         .08 

623 

L  841 

6.1 

38    7.667 

9°-4 

+  2.3883-.  0018 

+  .006 

+  .0002      o 

.12            .70        .18 

624 

Br384 

6.8 

38  44-152 

71.6 

+  3-3424+.oi65 

+  .003 

+  .0036       o 

.13            .45          .21 

625 

o  Arietis 

6.0 

39    2-233 

72.4 

+  3.2997  +  .oi5i 

+  .003 

+  .0001       o 

.IO            .52          .22 

626 

t  Horologii 

5-6 

39    9-157 

87.7 

+  2.0395-.  0002 

+  .005 

+  .0321—   I 

.19         1.23         .34 

627 

jrCeti 

4-4 

39  21-781 

74-3 

+  2.  853  9  +.0033 

+  .005 

—  .0005       o 

.05            .26         .IO 

628 

Br386 

5-3 

39  30-550 

73-o 

+  3-2629+.oi36 

+  .003 

+  .0080      o 

.09            .42          .l8 

629 

/iCeti 

4-3 

39  32-100 

77.0 

+  3-2377  +  -oi2S 

+  .003 

+  .0190      o 

.04            .20         .07 

630 

L855 

6-5 

40    8.822 

82.1 

+  2.5160—  .0010 

+  .006 

+  .0008       o 

•14       -75      -25 

631 

Br39o 

4.6 

40  26.120 

67-9 

+  2.  7987  +  .0020 

+  .005 

+  .0228      o 

.10       .39      .19 

632 

L893 

6.7 

41  41.684 

83.6 

+  1.0332  +  .0265 

—  .024 

+  .0159-   4 

.14       .75      .24 

633 

L875 

7.2 

41  47.364 

82.4 

+  2.  2572-.  0015 

+  .006 

+  .0007       o 

.15        .81      .27 

634 

Br389 

4.8 

4i  57-137 

68.3 

+  3-56I5  +  .0244 

+  .003 

+  .0115      o 

.08        .36      .17 

635 

Br  393 

6.2 

42  55-577 

69.2 

+3-356i  +  -oi68 

+  .003 

+  .0026       o 

.11            .45         .21 

636 

Br39i 

6.1 

42  56.922 

78-3 

+  3-4799+.02I3 

+  .003 

+  .0051       o 

.11        .36      .16 

637 

Br382 

6.4 

43    2.860 

71.0 

+  5.  2874+.  1473 

+  .064 

+  .0028      o 

.10           .48         .21 

638 

L896 

5-9 

43  19-215 

81.8 

+  I.2724+.OI7I 

—  .012 

+  .0015      o 

.16           -75         .27 

639 

rj  Persei 

4.0 

43  23.881 

78.6 

+  4.3462  +  .0678 

+  .OI2 

+  .0029      o 

.04           .22         .08 

640 

L879 

6.8 

43  30-359 

82.7 

+  2.4340-  .oou 

+  .006 

—  .0036      o 

•15        -93      -29 

641 

JT  Arietis 

5-5 

43  42.621 

61.3 

+  3-34i3  +  -°l63 

+  .003 

+  .0005      o 

.08     .33    .18 

642 

£  Hydri 

5-o 

43  59-967 

71.2 

+  0.9080+.  0324 

-.030 

+  .0098       o 

-14        -54      -25 

643 

Br395 

3-5 

44    5-733 

77.1 

+  3-52i4  +  -°227 

+  .OO2 

+  .0050       o 

.03        .20      .07 

644 

Br  394 

4-3 

44  16.078 

67-7 

+  3-77I7  +  -0334 

+  .003 

+  .0157      o 

.08        .32      .16 

645 

/8  Fornacis 

4-5 

44  54-357 

84-4 

+  2.5121—  .0004 

+  .006 

+  .0079+  I 

.07            .38         .12 

646 

Br398 

4.8 

45  21.042 

66.8 

+  3.6840+.  0296 

+  .OO2 

+  .0016      o 

.12            .50        .25 

647 

y  Fornacis 

5-5 

45  34-255 

85-3 

+  2-5988  +  .OO02 

+  .005 

+  .0034       o 

.11            .75         .22 

648 

o-  Arietis 

5-7 

45  58-199 

77-4 

+  3.3062  +  .0149 

+  .002 

+  .OO2I         0 

.04           .27         .IO 

649 

L897 

6.0 

46  12.176 

88.3 

+  2.4263—  .0009 

+  .006 

+  .0041       o 

.10        .60      .17 

650 

Br  404 

4-9 

2  46  30.146 

76.1 

+  2.  7204+.  0017 

+  .005 

-.0037       o 

.06           .28         .11 

606  2  389.     9M  29"  360°. 


6122:395.     9"  4"  331° 


CATALOGUE  OF  6l88  STARS  FOR  IQOO 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i'and  100  Afi' 

Prob.  Errors. 
SEp.  loop'  Sio 

Remarks. 

601 

Of                 II 

-793244-37 

79-7 

tf                      If 

+  15.671  +  .  115 

// 

-.42 

// 

-.030-    4 

a         a        a 
.06      .55    .18 

602 

-3037  28.54 

76.8 

+  15.608—  .242 

-.09 

-.081-    i 

.13      .67     .26 

37  G  Fornacis  t* 

603 

-52  5833-39 

83.0 

+  15.661-.  187 

-•°5 

—  .022—    i 

.11       .59    .19 

604 

—  o    6  10.13 

78.8 

+  15.670—  .286 

-.14 

+  .OOI         O 

.04         .21      .08 

605 

—  12   17  48.08 

68.2 

+  15.413-.  272 

—  .12 

-.236-  I 

.07         .23      .12 

606 

+2637  53.52 

68.8 

+  15.609-  .326 

—  .20 

-  -034      o 

.08         .26      .13 

33  Arietis  * 

607 

+   5  40  54-7  ! 

59-4 

+  15.645-.  295 

-•IS 

+  .OIO         O 

.14         .6l      .34 

608 

-   9  52  50.86 

9°-3 

+  15.525-.  272 

—  .12 

—  .091+  I 

.12        .73      .19 

609 

+  544044-99 

7i-3 

+  15-559-  -398 

-•34 

—  .027      o 

.09        .28     .14 

ii  Persei 

610 

+  39  46  15-76 

65.8 

+  15.392-.  352 

-•25 

—  .191      o 

.08        .32      .16 

12  Persei 

611 

-43  19  15.66 

78.6 

+  15.542-.  217 

-.07 

-.038-  I 

.11         .57      .21 

1  8  G  Eridani  s 

612 

-    *    7  15-47 

7i-3 

+  I5-437--290 

-.14 

-.136-  I 

•09     -35    -16 

84  Ceti  * 

613 

+  67  23  59.29 

75-2 

+  15-539-  -475 

-.56 

—  .028      o 

.06         .30      .12 

614 

-40  16  59.98 

76.0 

+  15.511—  .226 

-.07 

—  .029—   I 

.09         .39      .16 

615 

+  1935    7-38 

71.9 

+  15.492-.  318 

-.18 

-  .047      o 

•07      -34    -IS 

/3  522.    i2M  19"  264° 

616 

+  10  18  55.51 

60.6 

+  15.498-.  304 

-.16 

—  .021      o 

.11      .44    .24 

85  Ceti  (Aries) 

617 

+  48  48  19.89 

71.0 

+  I5-4I4-  -387 

-•30 

-.090-  3 

.03         .12      .06 

5  296.    IOM  17"  299° 

618 

-5458  41.24 

78.4 

+  15.488-.  180 

-•05 

—  .006      o 

.13         .57      .22 

619 

+  43  52  19.06 

59-8 

+  15.489-.  366 

-.26 

—  .004      o 

.11         .39      .22 

14  Persei 

620 

+  27  1653.82 

72-3 

+  15.479-  -331 

—  .20 

-.013      o 

.06         .25      .11 

35  Arietis 

621 

—  68  41  43.46 

74-9 

+  15.482—  .092 

-.06 

+  .Ol6—     2 

.IO         .42      .l8 

622 

+   2  48  51.79 

64.4 

+  15.312-.  294 

-.14 

-.150+     I 

.03         .l6      .08 

2299.    7M3"29i° 

623 

-384837.74 

84.2 

+  15.462—  .228 

-.07 

.000         0 

.12         .58      .19 

40  G  Fornacis 

624 

+  17  20  26.22 

67.0 

+  15.383-.  318 

-•17 

—  -045       o 

.11         .41      .21 

36  Arietis 

625 

+  1453  I7-87 

67.8 

+  i5-377--3I4 

-•17 

-  -034      o 

.10         .42      .20 

626 

-51  1354-58 

81.7 

+  15.626—  .200 

-•05 

+  .222—     3 

.15         .81      .27 

627 

-14  16  55.87 

71.1 

+  15-379-  -273 

—  .11 

—  .014       o 

.06         .24      .11 

628 

+  12      I  29.93 

68.6 

+  15.302-.  312 

-.16 

-.082-     I 

.08         .33      .16 

38  Arietis 

629 

+  941  31-10 

71.7 

+  I5-356-.  3" 

-.16 

—  .027—     2 

.04         .19      .08 

B.  A.  C.  has  Aries 

630 

-32  5650-27 

76.6 

+  15.318-  .242 

-.08 

—  .030      o 

.12         .64      .24 

44  G  Fornacis 

631 

-  18  59  44.91 

68.1 

+  15-379-  -27i 

—  .10 

+  .047-     2 

.10      .37    .18 

i  Eridani  r1  (80  Ceti) 

632 

-67    8    5.94 

79-2 

+  15.205—  .106 

-•05 

—  .056—     2 

.11         .53      .20 

19  G  Horologii 

633 

-43  15  27.14 

79-° 

+  15.  194-  .220 

-.06 

—  .062      o 

.12         .64      .23 

25  G  Eridani 

634 

+  2849  54-39 

64.4 

+  I5-I2I-.344 

—  .20 

—  .125—     I 

.07         .29      .15 

39  Arietis 

635 

+  1752    1.84 

64-5 

+  15.  156-.  326 

-.18 

-  -035       ° 

.09         .40      .20 

40  Arietis 

636 

+  24  46  15.01 

75-5 

+15.184-  .338 

-.19 

—  .006      o 

.11         .34      .16 

637 

+  68  28  26.89 

67.8 

+  15.179-  .510 

-.60 

—  .005      o 

.09         .40      .19 

638 

—  64    7  26.20 

81.0 

+  15.171—  .128 

-•05 

+  .003       o 

.14         .64      .23 

20  G  Horologii,  B.A.C.  has  7 

639 

+  55  2849.80 

75-7 

+  15.148-.  421 

-•35 

—  .016      o 

.04         .17      .07 

S3o7.  8MS  28"  301° 

640 

-3558    3-52 

76.0 

+  15.  no-.  238 

-.08 

—  .048      o 

.14         .82      .31 

46  G  Fornacis  -if- 

641 

+  17    253.96 

58-5 

+15.125-.  325 

-•17 

—  .021       o 

.07         .29      .l6 

2  311.  8^4  3"  121° 

642 

—  68    2  12.71 

73-o 

+  15.  182-.  094 

-.06 

+  .052-  I 

.12        .50     .22 

643 

+  265054.12 

73-6 

+  15.011-.  344 

—  .20 

-.113       o 

.04        .21      .08 

41  Arietis 

644 

+  37  54  25.00 

64.7 

+  15.009-.  369 

-.24 

-.105-     2 

.07        .29     .15 

1  6  Persei 

645 

-324933-25 

80.8 

+  15.  237-.  248 

-.08 

+  .I&0-     I 

.08        .40     .14 

646 

+  34  38  53-76 

63.6 

+  14.978-  .361 

-•23 

-  .074      o 

.11         .47      .24 

17  Persei 

647 

—  28   21   24.85 

83.6 

+  15.073-.  257 

-.09 

+  .033      o 

.11         .56     .18 

51  G  Fornacis  •f  * 

648 

+  14  4O  12.07 

75-6 

+  14.983-.  326 

-•17 

-  -033       o 

.05        .26     .IO 

649 

-36  15  28.04 

86.2 

+  15.027-.  241 

-.07 

+  .025      o 

.12         .6l      .19 

52  G  Fornacis  if  * 

650 

-21    2457.99 

73-i 

+  14.973-  .269 

—  .IO 

—  .012      o 

•08         -35      .15 

2  Eridani  r2 

647  Possibly  a  close  double. 


649  h  3536.     lofs  S" 


28 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i  and  100  A  n 

Prob.  Errors. 
aEp.     loop     a  10 

M 

h    m        s 

s               s 

S 

s 

//             //          /, 

651 

L  899 

5-6 

2  46  37.960 

86.6 

+  2.4267—  .0007 

+  .006 

+  .0019      o 

.13             .64         .20 

652 

v  Horologii 

5-5 

46  48.193 

84.0 

+  i.3i86  +  .oi54 

—  .010 

+  .0080—     I 

.15      1.06      .32 

653 

T  Persei 

4.1 

47    9-834 

77-4 

+  4.2274+.  0584 

+  .009 

+  .0005       o 

.04            .21          .08 

654 

Br  401  m 

5-6 

47  23.810 

74-5 

+  3-77I9+.033I 

+  .002 

+  .0047       o 

.09            .32          .15 

655 

L  903 

6.7 

47  42.199 

83.1 

+  2.5409—  .0001 

+  .005 

+  .0100          0 

.13        .66      .22 

656 

Lai  5273 

S-8 

48    1.062 

90.7 

+  4-7I7I  +  .09IO 

+  .019 

+  .0238+   4 

.09            .98         .21 

657 

L  912 

7.0 

48  56.279 

81.5 

+  2.2728—  .0009 

+  .005 

+  .0037       o 

.15            .78         .27 

658 

Br  405 

7.2 

49  18.811 

57-4 

+  3-35°3  +  -OI64 

+  .002 

+  .0032       o 

.l6            .48         .30 

659 

\l/  Fornacis 

6.1 

49  39-3°° 

85-3 

+  2.3508-  .0007 

+  .005 

+  .0044       o 

•15        -75      -24 

660 

Br  406 

6.2 

5O  II.  221 

69.6 

+  3-364i  +  .oi67 

+  .002 

—  .0006      o 

.09        .44      .20 

661 

p  Arietis 

5-8 

5047.318 

66.9 

+  3-3792  +  -°l64 

+  .002 

+  .0189—    I 

.07        .28      .14 

662 

Br  410 

6.2 

SO  52-773 

66.7 

+  3.  2039+.  01  15 

+  .002 

+  .0045       o 

.12            .52          .26 

663 

v  Hydri 

4.8 

51      6.605 

85.6 

-0.4477  +  .  1191 

--I59 

—  .0166+   5 

.09            .96         .25 

664 

Br  407 

5-3 

51   12.988 

74-6 

+  3-6303  +  .0264 

+  .OOI 

+  .0008      o 

.IO            .50         ,2O 

665 

17  Eridani 

4.0 

51  32.508 

76-9 

+  2.  9289  +  .0050 

+  .003 

+  .0054-  I 

.04            .l8          .07 

666 

Pulka  415 

5-4 

51  36.604 

93-6 

+  3.  005  2  +  .0068 

+  .003 

—  .0017       o 

.13            .8l          .19 

667 

Br  412 

6.0 

52  21.659 

73-8 

+  3.425i  +  .oi8o 

+  .OO2 

+  .0156       o 

•08            .33          .15 

668 

IT  Persei 

4-7 

52  21.868 

75-9 

+  3.8219+.  0345 

+  .OOI 

+  .0033       o 

.11             .32          .15 

669 

Br  392 

5-9 

52  46.626 

82.1 

+  7.77S8  +  .4625 

+  -440 

-.0130-   3 

.05            .34         .11 

670 

Pi   221 

5-i 

52  5I-707 

71.6 

+  3.  7030+.  0294 

+  .OOI 

—  .0050      o 

.16            .78         .34 

671 

Br  418 

5-6 

52  56-953 

75-7 

+  2.  6665  +  .OOI3 

+  .004 

+  .0068      o 

.11             .42          .l8 

672 

Groomb  590 

5-7 

53    2.571 

81.6 

+  4.05  1  1  +  .0459 

+  .003 

+  .0027       o 

.13            .44         .18 

673 

Br  414  m 

7.0 

53    9-057 

66.8 

+  3-4322  +  .oi86 

+  .OO2 

+  .0041       o 

.13            .62          .30 

674 

€  Arietis  m 

4.6 

53  29-521 

71.9 

+  3-4225  +  .oi84 

+  .OO2 

—  .OOI  I         O 

.04            .22          .10 

675 

L94S 

6.8 

53  38.745 

91.7 

+  2.3418—  .0004 

+  .005 

+  .0025      o 

.11             .70         .I? 

676 

Br  421 

6.1 

53  38-791 

81.6 

+  2.6666  +  .  0015 

+  .004 

+  .0033       o 

.13            .52         .20 

677 

Pulks;  423 

5-4 

53  39-744 

95-i 

+  3.0188  +  .007  1 

+  .003 

—  .0025      o 

.14        .88      .19 

678 

Pi  220 

5-6 

53  44-396 

61.6 

+  4.2502  +  .0567 

+  .005 

+  .0037       o 

.14      .51     .28 

679 

XCeti 

4.8 

54  21.258 

70.8 

+  3.2io8  +  .on8 

+  .OO2 

+  .0006       o 

.09        .36      .16 

680 

6l  Eridani 

3-5 

54  28.205 

74.0 

+  2.2741—  .0002 

+  .005 

—  .0051+   I 

.09        .40      .17 

681 

(P  Eridani 

4-7 

54  28.964 

76.7 

+  2.2727—  .0002 

+  .005 

—  .0065  +   I 

.13            .50         .21 

682 

Br  423 

5-6 

5438-I76 

69.4 

+  3.0254+.  0073 

+  .003 

—  .0008      o 

.13            .50         .24 

683 

L  960 

7-i 

54  42.443 

83.8 

+  I-7333  +  .0050 

+  .001 

—  .0004+   I 

.18            .75          .27 

684 

£  Fornacis 

5-8 

55  12-017 

86.4 

+  2.64I2  +  .OOI2 

+  .004 

+  .0135       o 

.14           .75         .22 

685 

L9S3 

6.7 

55  30-940 

88.1 

+  2.4733  +  -0001 

+  .005 

+  .0004       o 

.13            .84         .22 

686 

Br  424 

6.1 

56    0.510 

76.6 

+  3-5256  +  .o2i8 

+  .OOI 

—  .0009      o 

.IO            .42          .17 

687 

Br396 

6.1 

56  10.962 

67.7 

+  8.9749  +  .6684 

+.789 

—  .0200—   8 

.08            .34         .17 

688 

Br  427 

6.1 

56  14-983 

74-3 

+  2.9477  +  .0056 

+.003 

+  .0069      o 

.15            .62          .27 

689 

Br  425 

7.0 

56  30.120 

83.0 

+  3.5485  +  .0218 

+  .OOI 

+  .0179      o 

.08            .50         .l6 

690 

/?  Horologii 

5-2 

56  54-296 

84-5 

+  I.I2II  +  .O2I4 

-.015 

+  .0004+   I 

.14            .78         .24 

691 

a  Ceti 

2.7 

57    3-063 

69.6 

+  3.I3I7  +  .0097 

+  .OO2 

—  .0009      o 

.02            .12         .05 

692 

Br  430 

5-9 

57    8.207 

83-3 

+  3-J378  +  -oo99 

+  .OO2 

+  .0009       o 

.12            .40         .l6 

693 

«  Fornacis 

6.1 

57  18.959 

86.1 

+  2-5873  +  .OO02 

+  .004 

+  .0215-   3 

.11             .72          .21 

694 

y  Persei 

3-o 

57  33-oo2 

78.4 

+  4-3  185  +  -°593 

+  .003 

+  .0004       o 

.04            .21          .08 

695 

p  Eridani 

5-7 

57  47-726 

67.2 

+  2.9422  +  .0057 

+  .003 

+  .0027       o 

.13             .48         .24 

696 

Br  434 

4.2 

57  58.982 

87-4 

+  2.  6446+.  0016 

+  .004 

—  .0104      o 

.06        .33       .10 

697 

Pi  236 

5-i 

58    1.418 

66.4 

+  4-4772  +  .o69i 

+  .005 

—  .0005  +   I 

.14            .56         .28 

698 

p  Persei 

Var. 

58  45-947 

80.3 

+  3.8302  +  .0330 

.OOO 

+  .0115       o 

.04           .21         .07 

699 

Lai  5579 

6.0 

58  56-725 

88.1 

+  4-9725  +  -I034 

+  .017 

—  .0005      o 

.11            .98         .24 

700 

Br435 

5-6 

2  59  21.736 

72.2 

+  2.  9440  +.005  7 

+  .003 

+  .0040       o 

.12             .51          .23 

^  524'     6M-6"7  <  o'.'s;  binary,  30  yrs.  ±. 
318.     IOM  14"  136°. 


669  2  320. 


9MS' 


230° 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


No. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3., 

(i/andiooAp 

Prob.  Errors. 
SEp.  loop.'  Sio 

Remarks. 

651 

0             /                 // 

—  36    5  13.64 

83.0 

+  14.923-.  242 

-.07 

-  -054       o 

//         a        // 

.12        .55      .19 

53  G  Fornacis  if 

652 

-63  13  17.47 

81.0 

+  14.990-.  135 

-•05 

+  .022—    i 

.13        .81      .27 

653 

+  52   21    11-73 

76.4 

+  14.941--  417 

-•33 

—  .006       o 

.04        .15      .06 

654 

+  37  55  48.20 

73-8 

+  14.851  -.374 

-.24 

—  .082       o 

.09        .30     .14 

20  Persei  * 

655 

-31  13  42-52 

82.9 

+  15.010-  .255 

-.08 

+.095-  » 

.13        .60     .21 

54  G  Fornacis 

656 

+  61    6  46.67 

94-6 

+  14.924—  .469 

-•43 

+  .O27—     2 

.08        .97      .17 

657 

-41  48    4.05 

76-5 

+  14.814—  .230 

-.06 

—  .029      o 

.12        .58     .23 

36  G  Eridani 

658 

+  17  1941-38 

56-z 

+  14.795-.  336 

-•17 

—  .026      o 

.14        .45      .28 

44  Arietis  (p1) 

659 

-38  5045.24 

81.6 

+  14.853-.  238 

-.07 

+  •053      ° 

.12         .63      .22 

660 

+  17  5535-26 

70-5 

+  14.753-.  338 

-•17 

—  .016      o 

.08         .40      .18 

45  Arietis  (p2) 

661 

+  i7  37  27-83 

60.8 

+  14.526-  .342 

-.17 

—  .207—     2 

.07         .23      .13 

Br  408;  46  Arietis  (p*) 

662 

+   7  58  45-19 

63-5 

+  14.637-.  324 

-•15 

—  .091      o 

.12        .54     .28 

663 

-75  2831.42 

84.0 

+  14.715  +  .  040 

—  .20 

+  .OOI+    2 

.08        .65      .19 

664 

+  31  31  53-46 

68.9 

+  14.671—  .366 

—  .21 

-  -037      o 

.10      .38    .18 

21  Persei 

665 

-   9  17  45.92 

75-3 

+  14.474-  .297 

—  .12 

-.215      o 

.04         .I?      .07 

666 

-   4    653.88 

92.0 

+  14.63  7  -.304 

-•13 

-  .047      o 

.11         .63      .l6 

667 

+  20  16    3.63 

69-3 

+  14.609-  .349 

-•17 

-.031—     2 

.08         .36      .I? 

47  Arietis 

668 

+  39  15  44.77 

65.6 

+  14.590-.  387 

—  .24 

-  .050      o 

.09         .26      .14 

669 

+  79    i  25.14 

80.8 

+  14.626—  .781 

-i-54 

+  .OII+     I 

.04         .24      .08 

47  H  Cephei,  Cassiopeiae  *. 

670 

+  344656-67 

63-2 

+  14.622-.  375 

—  .22 

+  .OI2         O 

.14         .67      .34 

24  Persei 

671 

-24  15  47.45 

80.2 

+  14-576-  -273 

-.09 

—  .029—     I 

.10      .38    .15 

4  Eridani  (41  G) 

672 

+  46  49  12.  61 

73-2 

+  14.620—  .411 

-.28 

+  .021         O 

.12        .37      .18 

673 

+  21  13    3.66 

68.4 

+  14-577-  -35° 

-.18 

—  .015      o 

.11        .64     .29 

* 

674 

+  2056  25.46 

70.4 

+  14.564-.  349 

-.18 

—  .008       o 

.04        .21      .09 

* 

675 

-38  35  33.22 

84.2 

+  14-577-  -241 

-.07 

+  .014       o 

.13         .58      .20 

62  G  Fornacis 

676 

—  24    o  29.88 

78.3 

+  14.621—  .274 

-.09 

+  .058      o 

.12        .46     .19 

6  Eridani  (44  G) 

677 

-   3  I0  53-05 

92-5 

+  14.503-.  308 

-•13 

-  -059       o 

.11         .65      .16 

678 

+  51  57  14.62 

52-3 

+  I4-530-  -433 

-•32 

—  .027       o 

.11         .40     .26 

2331.  7Mi2"8S° 

679 

+  8  30  32.24 

71.0 

+  14.514-.  329 

-•15 

—  .006      o 

.08        .33      .15 

680 

—  40  42  18.86 

73-9 

+  14-547-  -234 

-.06 

+  .034      o 

.08        .36     .15 

Jo  -//  c.o 

68  1 

—  40  42  18.28 

82.6 

+  I4-532--234 

-.06 

+  .O2O+     I 

.12        .64     .21 

o-3    °5 

682 

—   251  46.46 

70.7 

+  14.491  -.3  10 

—  .13 

—  .012      o 

.11         .43      .20 

5  Eridani 

683 

-55  2453.87 

80.4 

+  14.545-.  181 

—  .04 

+  .046       o 

.14        .60     .23 

29  G  Horologii 

684 

—  25  40  29.48 

80.6 

+  14.560-  .274 

-.09 

+  .091—     I 

•13        -63      -23 

685 

-32  54  19.69 

83-1 

+  14.452-.  256 

-.08 

+  .OO2         0 

.12         .6l      .20 

66  G  Fornacis 

686 

+  26    3  59.47 

73-5 

+  14.413-.  363 

-.19 

—  .007       o 

•09      -39    -17 

49  Arietis 

687 

+  81    5    2.24 

7i-5 

+  14.411—  .914 

-2.15 

+  .002+     2 

.09    .37  .17 

2327.    IIM25"282° 

688 

-   8    3  25.20 

71.6 

+  14.341-.  306 

—  .12 

—  .064—     I 

.11         .45      .20 

8  Eridani  p1 

689 

+  2613    9.03 

80.2 

+  14.222—  .368 

-.19 

-.168-     2 

.07         .39      .14 

51  Arietis 

690 

—  64  28    7.91 

86.0 

+  I4-393-.  120 

"•OS 

+  .028      o 

.11         ,8l      .22 

691 

+  3  41  50.84 

66.7 

+  i4-279--325 

-.14 

-.077      o 

.02         .11      .05 

692 

+  3  57  30-55 

78.9 

+  14.359-.  326 

-.14 

+  .007      o 

.11         .37      .16 

93Ceti 

693 

—  28  28  27.09 

79.1 

+  I3-932-  -272 

-.08 

-.408-     2 

.11         .50      .19 

694 

+  53    653.44 

76.8 

+  14.317-.  446 

-•33 

—  .009      o 

.04         .l6      .06 

695 

—   8    4  42.66 

65-7 

+  14.328-.  307 

—  .12 

+  .017       o 

.10      .37    .19 

9  Eridani  p2  * 

696 

-24    059.18 

85.0 

+  14-253-  -275 

-.09 

-.047+     I 

.06         .30      .IO 

1  1  Eridani  r3  (56  G) 

697 

+  56  18  46.99 

52-9 

+  14.368-  .463 

-•36 

+  .071       o 

.12         .45      .28 

k  Persei 

698 

+  38  27   10.22 

79-3 

+  14.143-.  400 

-.24 

-.108-  I 

.04         .29      .IO 

Var.,  3?4  to  4^2 

699 

+  63  40      8.91 

89.0 

+  14.235-  .516 

-.48 

—  .005       o 

.10         .82      .20 

700 

-   7  5931.10 

67-7 

+  14.240-.  309 

—  .11 

+  .025       o 

.09         .35      .l8 

10  Eridani  p3 

673  ft  525-     7M8-7"!I8  <  i" ;  slow  binary. 


6742333-   s". 


i '.'4;  slow  binary. 


695  ft  n.     IOM  z'.'4  84° 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  TOR   IQOO 


Ho. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3at 

(i  and  100  A  p 

Prob.  Errors. 
aEp.     loop     a  10 

M 

h    m        s 

5                      S 

s 

s 

//             it          tt 

701 

1,974 

5-9 

2  59  30.802 

82.6 

+  2.0508  +  .001  1 

+  .004 

+  .0028      o 

.13        .88      .28 

702 

Br  433  m 

5-6 

2  59  34.580 

62.6 

+  3.  5098  +.0208 

.000 

+  .0003       o 

.14        .50      .27 

703 

L  976 

7.0 

3    o  20.094 

83.1 

+  2.  1485  +  .0006 

+  .004 

—  .0007       o 

.15        .69      .24 

704 

Paris  3721 

6.0 

o  54-207 

85-5 

+  3.2880+.  0136 

+  .OOI 

+  .OOOI         0 

.11        .57      .17 

70S 

Br  417 

S-o 

i    5.271 

79-4 

+  6-3936+.2379 

+  .104 

+  .0070-   3 

.07        .39      .14 

706 

fi  Horologii 

5-3 

i  15.382 

83-3 

+  1.4083  +  .01  19 

-.005 

—  .0099       o 

.14        .69      .23 

707 

Pulkja  440 

5-8 

i  36.684 

91.7 

+  2.  9644+.  0062 

+  .003 

+  .OOOI         O 

.12        .78      .18 

708 

/8  Persei 

Var. 

i  39-S85 

73-6 

+  3.8879  +  .0355 

.OOO 

+  .0006       o 

.03        .16      .07 

709 

Br  439 

6-5 

i  47-739 

68.7 

+  3.37oi  +  .oi6i 

+  .OOI 

—  .0024      o 

.10        .39      .19 

710 

i  Persei 

4.2 

i  50.800 

75-3 

+  4.3064  +.05  1  5 

.000 

+  .1292+  9 

.04            .21          .09 

711 

0Hydri 

5-7 

2    2.910 

76.5 

+0.0950+.  07  15 

-.077 

+  .0089      o 

.07            .45         .17 

712 

Br  440 

6.6 

2  40.892 

67-9 

+  3-3933  +  .°l66 

+  .00  1 

+  .0027       o 

.12            .42          .22 

713 

K  Persei 

4.0 

2  44.890 

62.4 

+  4.0284  +.0409 

—  .001 

+  .0170      o 

.08            .30         .l6 

714 

Pi  267 

6-3 

3  34-522 

79-7 

+  2.563I  +  .OOH 

+  .004 

+  .0056      o 

.12            .51          .19 

715 

Br  441 

5-9 

3  35-678 

73-o 

+  3-5999  +  .0234 

.000 

+  .O022          O 

.13            .44         .21 

716 

Pi  264 

7-3 

3  53-257 

79.2 

+  3-4057  +  .oi69 

+  .00  1 

+  .0025      o 

.12            .52          .20 

717 

<a  Persei 

4.8 

4  49.896 

67-3 

+  3.8581  +  .0335 

—  .001 

—  .0019      o 

.11             .42          .21 

7i8 

8  Arietis 

4.6 

5  54.546 

75-2 

+3.4233  +  -OI7i 

.000 

+  .0107      o 

.03            .l6         .06 

719 

Br  447 

5-9 

6  16.575 

65.2 

+  3-5649+.02i8 

—  .001 

+  .0006       o 

.12             .44         .23 

720 

Pi  6 

5-9 

7    7-836 

74-7 

+  3-i773  +  -oio7 

+  .OOI 

—  .0023      o 

.18            .78         .33 

721 

Br  431 

5-7 

7  37-183 

78.9 

+  7.4470+.  3558 

+  .190 

+  .0203+  I 

.04            .26         .09 

722 

Br  450 

5-3 

7  40.186 

76.2 

+  3.0591  +  .0077 

+  .O02 

+  .0135      o 

.07            .30         .12 

723 

a  Fornacis 

3-9 

7  49-39° 

79-4 

+  2.5474+.  0018 

+  .004 

+  .0250+  3 

.O6            .28         .IO 

724 

Groomb  627 

6.0 

8    8.062 

79-3 

+  4.565  1  +  .0690 

.000 

+  .OOOI         0 

.11             .48         .19 

725 

L  1023 

7.0 

8    9.129 

82.7 

+  1.495  4  +.0099 

—  .004 

—  .0003       o 

.18            .78         .28 

726 

Br  402 

5-9 

8  34.80- 

77-0 

+  I3-406-  +  I.637- 

+  •051  '-35 

.06            .34         .13 

727 

Br  445  m 

6.7 

8  45.804 

74-9 

+  5.  2017  +  .  1127 

+  .OIO 

—  .OOI  I          0 

.10            .57         .22 

728 

L  1016  m 

6-3 

8  55.016 

87.2 

+  2.io68  +  .ooi3 

+.003 

+  .0085-  I 

.11             .57          .I? 

729 

Groomb  631 

5-3 

9    3-032 

76.8 

+4.2659+.  0516 

—  .002 

—  .0001       o 

.12            .51          .21 

730 

f  Arietis 

4-9 

9    9-103 

72-5 

+  344I2  +  .OI76 

.000 

—  .0017      o 

.05            .26         .11 

731 

Pi  9 

5-7 

9  14.891 

78.6 

+  3.6407  +  .0242 

—  .001 

—  .0030      o 

.16            .78         .30 

732 

L  1015 

6-5 

9  27.692 

83.2 

+  2-5O3I  +  .OOI2 

+  .004 

+  .0025      o 

.14            .78         .25 

733 

L  1040 

6.0 

IO      1.  112 

79-8 

+  1  -5  i  53  +  -0094 

—  .004 

+  .0015      o 

.13             .60         .22 

734 

Brisb  508 

7.2 

io    3-557 

89.7 

+  2.  2673  +  .OOO8 

+  .004 

—  .0018      o 

.13             .8l          .21 

735 

Groomb  628 

6.9 

10  29.690 

82.6 

+5.  7007  +  .  1521 

+.023 

+  .0066+  I 

.IO            .52         .17 

736 

Br456 

7.2 

10  40.074 

70.1 

+  2.9145  +  .0055 

+  .OO2 

+  .OOII         O 

.11             .40         .19 

737 

L   I02O 

7.2 

10  44.148 

85.6 

+  2.3592  +  .0009 

+  .004 

+  .0030      o 

.10        .60      .18 

738 

L  1105 

5-9 

10  56.044 

83.2 

—  2.  1726+.  2713 

-•397 

+  .0240+   4 

.10        .87      .25 

739 

£  Eridani 

S-o 

10  58.525 

70-5 

+  2.9I2O+.OO55 

+  .002 

—  .0003       o 

.06           .26        .12 

740 

fir  453 

5-5 

II   3.460 

64.2 

+  4.0190+.  0388 

-.003 

+  .0025       o 

.14           .48         .26 

74i 

Br  448 

4.8 

II  11.072 

70.2 

+  5.2252  +  .II2I 

+  .008 

+  .0018      o 

.09           .40        .18 

742 

Br  452 

5-3 

II  30.234 

74-5 

+4.2510+.  0497 

—  .004 

+  .0034       o 

.09           .39         .17 

743 

Pi  26 

6-4 

II  44.916 

65.8 

+  2.9058  +.0054 

+  .002 

—  .0001       o 

.11            .50        .25 

744 

Br4S5 

5-2 

12     0.473 

71.4 

+  4.2479+.  0494 

—  .004 

+  .0032      o 

.09           .38         .17 

745 

L  1034 

6.9 

12      3.971 

85.0 

+  2.  47  23  +  .001  2 

+  .003 

+  .0015      o 

.13           .80        .24 

746 

Pi  23 

5-o 

12  28.437 

72.2 

+3.7403  +.0273 

—  .002 

+  .0004       o 

.11        .68      .28 

747 

L  1057 

7.2 

12  36.355 

81.7 

+  I-359°+.oi3I 

-.007 

+  .0029       o 

.16        .78      .28 

748 

L  1045 

7-3 

12  37.619 

88.8 

+  2.3488  +  .ooio 

+  .004 

+  .0014      o 

.13        .75      .21 

749 

Br  461 

5-8 

13  I5-3I9 

72.0 

+  3.0663+.  0078 

+  .002 

+  .0165       o 

.08        .30      .14 

750 

Br  466  m 

5-i 

3  13  56.862 

81.7 

+  2.6513  +  .  0024 

+  .003 

+  .OOI2         0 

.09        .52      .18 

702  S  346.     6M3-6"3  o'.'s  271°;  "M  S"  357°. 
721  ft  1176.     12^5  i'.'a  273°. 


722  h  663. 

723  h  3SSS- 


332°;  rel.  mot. 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


No. 

Decl.  1900 

Epoch 

An.  Vai.  and 
Sec.  Var. 

3dt 

n'  and  ioo  A(i 

Prob.  Errors. 
SEp.  loop'  Sio 

Remarks. 

701 

O           /               It 

—  47   22      1.26 

80.5 

//                      // 

+  14.190—  .217 

-•°5 

—  .015       o 

//         it       a 

.IO         .63      .21 

58  G  Eridani 

702 

+  2451  57-53 

61.1 

+  14.187-.  367 

-.19 

—  .014       o 

.11         .43      .24 

52  Arietis  * 

703 

-44  17  18.98 

78.4 

+  14.188-.  228 

-•°5 

+  .034      o 

.12         .52      .20 

704 

+  1248    5.34 

86.6 

+  14.049-  .346 

-.16 

—  .070      o 

.11         .60      .l8 

70S 

+  74    o  49.48"' 

75-8 

+  14.025—  .669 

-.91 

-.083-  I 

.06         .27      .11 

706 

—  60    7  32.32 

80.  i 

+  14.031-.  151 

-.04 

-.066+  I 

.11         .51      .19 

707 

-  6  28  30.30 

89.8 

+  14.077-.  314 

—  .12 

+  .002       o 

.12         .67      .18 

708 

+  4034  13.50  v 

67.7 

+  14.067—  .410 

-.24 

-  .005       o 

.04         .l6      .08 

2™2  to  3"7    Algol. 

709 

+  17  2938.44 

66.4 

+  14.067-.  356 

-.16 

+  .003       o 

.09         .37      .18 

53  Arietis 

710 

+  49  13  S2-?2  • 

75-6 

+  13.981-.  468 

-•3° 

—  .080—  14 

.04         .19      .08 

711 

-72  1734.36 

77-5 

+  14.084—  .017 

-•13 

+.036-  I 

.06         .43      .15 

712 

+  18  24  40.46 

65.6 

+  13.990-.  360 

--I7 

—  .018      o 

.11         .39      .20 

54  Arietis 

713 

+  44  28  42.79 

58.9 

+  13.847-.  428 

-.27 

-.157-     2 

.07         .24      .14 

714 

-28  12  52.31 

81.7 

+  13-937-  -275 

-.08 

—  .015—     I 

.11         .47      .17 

69  G  Fornacis 

715 

+  28  41  42.20 

69.6 

+  13.926-.  383 

—  .20 

-.025      o 

.11         .42      .20 

55  Arietis 

716 

+  18  59  56.03 

71.4 

+  I3-929-  -363 

-•17 

—  .004      o 

.11         .41      .19 

717 

+  39  13  54-31 

64.2 

+  13.876-  .412 

-•23 

+  .003       o 

.10      .34    .18 

718 

+  19  2054.73 

70.8 

+  13-799-  -369 

"•I? 

—  .006—   I 

.03         .18      .08 

719 

+  2652  47.79 

61.2 

+  I3-765-  -383 

-.19 

—  .017       o 

.IO         .38      .21 

56  Arietis 

720 

+  6  17    3.02 

63.6 

+  I3-7I5-  -343 

-.14 

—  .012      o 

.16         .59      .32 

721 

+  77  22    2.88 

78.6 

+  13.647-.  801 

-1.29 

-.049-     2 

.04         .25      .09 

48  H  Cephei  * 

722 

-    i  34  12.19 

72.7 

+  13.638-.  333 

—  .12 

-•°55-     2 

.06         .27      .12 

94  Ceti  * 

723 

-29  22  52.38 

78-3 

+  14.331-.  280 

-.08 

+  •648-   3 

.06         .28      .11 

12  Eridani  * 

724 

+  5646    4.84 

80.  i 

+  13-667  -.493 

-•37 

+  .004       o 

.11         .38      .16 

725 

-58  ii  13.01 

79-2 

+  13.674-.  165 

-.04 

+  .OI2          O 

.14         .60      .23 

36  G  Horologii 

726 

+  84  33  26.56 

79-i 

+  13-503  -i  -444 

-.132-   6 

.08         .40      .15 

727 

+  65  17  15.98 

72-5 

+  13.640-.  562 

-•52 

+  .017      o 

.09         .44      .19 

* 

728 

-4447  40.63 

85.8 

+  13.  608-  .232 

-•05 

-.005-  I 

.09         .47      .15 

71  G  Eridani  * 

729 

+  5034    0.19 

77-6 

+  13.587-.  463 

-•3° 

—  .017      o 

.11         .43      .18 

730 

+  20  40  26.05 

68.0 

+  13.523-  .374 

-•i? 

-.075      o 

.04         .20      .09 

731 

+  3°  "    3-58 

71-5 

+  13-587-  -395 

—  .20 

-  .005       o 

.15         .60      .28 

732 

—  30  10  38.61 

78.6 

+  13-597-  -275 

-.08 

+  .019       o 

.13         .64      .24 

76  G  Fornacis 

733 

-57  4i  45-3° 

82.3 

+  13.546-.  169 

—  .04 

+  .004       o 

.11         .58      .20 

38  G  Horologii 

734 

-39  1051.36 

83-3 

+  13.491-.  249 

-.06 

—  .049       o 

.13         .64      .22 

77  G  Fornacis 

735 

+  69  21  53.84 

73-9 

+  13-513-  -620 

--65 

+  .OOI—     I 

•08         -35      .15 

736 

-   9    8  25.48 

71.1 

+  13.495-.  320 

—  .11 

-  .005       o 

.09         .41      .l8 

737 

-35  55  46.07 

79-3 

+  13.518-.  260 

-.06 

+  .O22          O 

.11         .53      .20 

79  G  Fornacis 

738 

-7922    8.23 

83.0 

+  13.  569+.  226 

-•55 

+  .086-    3 

.09         .75      .22 

55  G  Hydri  * 

739 

—   9  ii  28.14 

63.1 

+  I3-525--32Q 

—  .11 

+  .045       o 

.07         .25      .14 

740 

+  43  39  27.05 

57-7 

+  13.  448  -.440 

-.26 

—  .027       o 

.12         .40      .24 

30  Persei 

741 

+  65  17  I2.OI 

63-4 

+  13.462-.  570 

—  .52 

-  .005       o 

.07         .29      .15 

742 

+  49  51  20.78 

67-5 

+  13.416—  .466 

-.29 

—  .030      o 

.09         .28      .15 

29  Persei 

743 

-   9  31  28.85 

68.4 

+  13.480-.  320 

—  .11 

+  .050      o 

.10         .47      .22 

14  Eridani 

744 

+  49  43  46.23 

63-7 

+  13.  387-.  466 

-.29 

—  .027       o 

.09         .26      .15 

31  Persei 

745 

-3i  ii  47-53 

79-9 

+  13.420-  .274 

-.07 

+  .OIO         0 

•13      -75    -26 

80  G  Fornacis 

746 

+  33  Si  24-63 

70.8 

+  i3-37i--4i2 

—  .21 

—  .012       o 

•io     -53    -23 

747 

-59S258-77 

78.4 

+  I3-393-  -154 

-.04 

+  .019      o 

.12         .60      .22 

i  G  Reticuli 

748 

-36    332.61 

82.4 

+  13.381-  .261 

-.06 

+  .008      o 

.12         .53      .19 

8  1  G  Fornacis 

749 

—    i  17  40.12 

69.2 

+  13.  285-.  342 

—  .12 

-.047-     2 

.08         .29      .14 

95  Ceti  * 

750 

—  22  52  36.19 

76.4 

+  13.297-  .295 

-.08 

+  .OIO         0 

.09         .40      .l6 

15  Eridani  * 

727  OS  52.     6™ 
738  8"  15"  225° 


o'.'?  118°;  slow  binary. 

749  Clark  2.     10* 


728  Innes. 
rapid  binary. 


750  See  23. 


o'.'3  284° 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.  and  100  A  n 

Prob.  Errors. 
aEp.  loop,  a  10 

M 

h  m    s 

s       s 

s 

s 

it     tt    /i 

751 

Br  460 

6.1 

3  J3  57-338 

78.1 

+  3-5743  +  -02I2 

—  .OO2 

—  .0016—  I 

.12     .36    .16 

752 

icCeti 

5-i 

14  6.924 

74.8 

+  3.  1426+.  0095 

+  .OOI 

±i?J77+  z 

•07    -33   -i4 

753 

Paris  3965 

6.0 

14  7.164 

93-6 

+  2-7373  +  -0031 

+  .003 

+  .0083   o 

.14     .98    .21 

754 

L  1058 

6.1 

14  11.047 

91.0 

+  1.9538  +  .0028 

+  .OO2 

—  .0015   o 

.13     .70    .18 

755 

Pi  32 

4.6 

14  17.186 

67.8 

+  3.6204+.  0227 

—  .OO2 

—  .0002   o 

.l6     .69   ,.33 

756 

Br  462 

6.6 

14  29.795 

71.8 

+  3-5479+  -°202 

—  .OO2 

+  .0015   o 

-15     -52    -25 

757 

Br  458 

5-o 

14  44.486 

61.6 

+  4.002  2  +  .03  74 

—  .OO4 

-  .0052   o 

.14     .40    .24 

758 

Pi  28 

6-3 

14  46.788 

73-o 

+  4.2356  +  .047I 

-.005 

+  .O200+  I 

.14     .52    .24 

759 

Br  469 

3-9 

15  4.110 

81.8 

+  2.  6674+.  OO26 

+  .003 

+  .0036   o 

.06     .34    .12 

760 

Br  449 

7-4 

IS  5-357 

66.5 

+  6.3423+.  2060 

+  .039 

+  .0123   o 

.11     .69    .32 

761 

Br46s 

5-4 

15  27.110 

74-8 

+  3-4565  +  -OI74 

—  .OOI 

+  .OO2I    O 

.06     .39    .15 

762 

L  1074 

5-7 

iS  35-890 

80.  i 

+  1.2941  +  .Ol8l 

-.013 

+  .1947-11 

.l6     .70    .27 

763 

Br  468 

5-8 

15  52.884 

64-7 

+  3-I343  +  -°°94 

+  .OOI 

+  .0036   o 

.14     .52    .28 

764 

L  1060 

4.4 

i5  56.157 

79.6 

+  2.3994-  .0005 

+.003 

+  .2824—  12 

.08     .44    .l6 

765 

Pi  27 

5-6 

15  59-349 

74-8 

+  5.  1631  +  .  1033 

—  .OOI 

+  .0017+  I 

.12     .52    .22 

766 

f  Reticuli 

5-3 

16  2.363 

83-9 

+  1.2944  +  .  0182 

—  .014 

+  .1924—  10 

.18     .75    .27 

767 

Pi  37 

5-4 

16  7.884 

74-9 

+  4.2302  +  .047I 

-.005 

+  .0029   o 

.15     .54    .24 

768 

Br  467 

5-7 

16  11.561 

76-9 

+  3-5934+.02I5 

—  .002 

+  .OOI2    O 

.11     .44    .18 

769 

L  1064 

6.9 

16  28.976 

85.0 

+  2.  561  1  +  .0019 

+  .003 

+  .0029   o 

•13   -75   -23 

770 

Br  470 

5-2 

16  59.820 

67.4 

+  3.4453  +  .01  7  1 

—  .002 

-  -0033   o 

.12     .39    .20 

771 

L  1067 

5-8 

17  1.912 

83.6 

+  2.  6209  +.0023 

+  .003 

—  .0007   o 

.13   .98  .29 

772 

a  Persei 

i-7 

17  10.820 

70.8 

+  4.2616+.  0482 

—  .006 

+  .0028   o 

.02   .11   .05 

773 

L  1071 

6-5 

17  58-345 

85-4 

+  2.5797  +  .002  1 

+.003 

+  .0018   o 

.15  1.04  .30 

774 

Dpt  333 

5-9 

18  14.360 

92.1 

+  3.7404+.  026l 

-.003 

+  .0029   o 

.12     .78    .18 

775 

Br  472 

5-8 

18  24.037 

65.6 

+  3-5344+  -0194 

—  .002 

+  .OOIO    O 

.IO     .40    .21 

776 

i  Hydri 

5-7 

18  26.654 

85-3 

—  i.  5826+.  1927 

-•239 

+  •0347-  3 

.11     .70    .21 

777 

Br  474 

6.2 

18  40.033 

69.2 

+  3-4525  +  -oi7i 

—  .002 

+  .0003   o 

.11     .42    .20 

778 

o  Tauri 

3-6 

19  25.843 

78.1 

+  3.2238  +  .OH4 

.000 

-  .0045   o 

.03     .20    .07 

779 

L  1081 

6.9 

19  43-750 

84.2 

+  2.4095  +  .0014 

+.003 

+  .0029   o 

.11     .8l    .24 

780 

Br  476 

5-i 

20  56.310 

75-i 

+  4.2448  +  .0461 

—  .007 

+  .0025   o 

.11     .51    .21 

78i 

Pi  51 

4-4 

20  58.022 

82.0 

+  4.8234+.0772 

-.008 

+  .0005   o 

.05     .26    .09 

782 

Pi  60 

6.9 

21  20.656 

82.3 

+  3-4i85  +  -oi59 

—  .002 

+  .0038   o 

.11     .54    .19 

783 

Pi  56 

5-8 

21  41.904 

71.4 

+  4.2829  +  .0475 

-.007 

+  .0044   o 

.15     .56    .26 

784 

£  Tauri 

3-7 

21  44-903 

71.0 

+  3.2466  +  .on6 

.000 

+  .0040   o 

.04     .24    .IO 

785 

L  1099 

7-9 

21  48.876 

93-9 

+  2.2579  +  .ooi5 

+  .003 

+  .OIOI    O 

.15    I.  II    .23 

786 

Pi  54 

4-7 

21  55-483 

71.6 

+  4-7582  +  .0726 

-.008 

+  .0014   o 

.09     .39    .17 

787 

Pi  62 

5-9 

22   3.744 

80.9 

+  3-757I  +  -°26o 

—  .004 

+  .0031   o 

.l6     .96    .32 

788 

L  HOI 

6.6 

22   3.967 

83.2 

+  2.3190+.  0014 

+.003 

+  .0036   o 

.11     .60    .20 

789 

L  1096 

6.2. 

22   9.173 

80.  i 

+  2.  5300  +  .002  1 

+  .003 

—  .0013   o 

.15   .86   .30 

fro 

Br  478 

4.8 

22  12.850 

56.1 

+  4.2694+.  0467 

-.008 

+  .0030   o 

.14   .44   .27 

7QI 

Pi  57 

5-2 

22  22.435 

72.2 

+  4.5490  +.0609 

—  .008 

-  .0039   o 

.10   .40   .18 

7Q2 

Br  482 

6.2 

2235.712 

71.6 

+  3.5002  +  .0179 

—  .002 

+  .0006—  I 

.10   .39   .18 

793 

L  1107 

6.7 

22  37-342 

87.2 

+  2.I442  +  .O02O 

+  .OO2 

+  .OO2I    O 

.12     .69    .20 

794 

Paris  4113 

6.1 

23  14.801 

93-2 

+  2.86O5  +  .OO49 

+  .002 

+  .0014   o 

.13     .78    .18 

795 

a-  Persei 

4-7 

23  31.268 

83-3 

+  4.2I04+.  0438 

—  .008 

+  .0006   o 

-05     -27    -09 

796 

Br  480 

6.1 

23  33-°8° 

76.5 

+  4.2  1  76  +.0439 

-.008 

+  .0032   o 

.IO     .40    .17 

797 

L  1132 

6-5 

23  36-663 

80.  i 

+  o.23o5  +  .o535 

—  .046 

+  .0041   o 

.16   .66   .26 

798 

L,  1108 

5-8 

23  40.947 

87.8 

+  2.  3240+.  OOI5 

+  .003 

+  .0062   o 

.12   .62   .18 

799 

Br  471 

6.6 

24  14.526 

77-5 

+  6.4796+.  2041 

+  .011 

+  .0054   o 

.08   .46   .17 

800 

PulkM  501 

5-8 

3  24  52.557 

90.0 

+  2.  8306  +.0046 

+  .OO2 

—  .0008   o 

.09   .81   .18 

753  h  3565. 


6"  116°. 


759  Jacob.     IOM  6"  288°. 


764      Annual  Parallax,  "15. 


CATALOGUE   OF   6 1 88   STARS   FOR   1900 


33 


Ho. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3dt 

H'  and  ioo  AH 

Prob.  Errors. 
SEp.  IOOH'  810 

Remarks. 

751 

0             1                II 

+2642  34.17 

74-o 

+  13.  208-.  396 

-.18 

—  .078       o 

.11      .32    .16 

59  Arietis 

•752 

+  30  12.67 

73-o 

+  13.370-.  351 

-•13 

+  .094—     2 

.07         .28      .12 

96  Ceti  (KI) 

753 

—  18  55  21.46 

92.8 

+  I3-255-  -306 

-.09 

—  .O2I—     I 

.15      1.04      .23 

80  G  Eridani  * 

754 

-48    7    5-47 

88.2 

+  13.288-.  219 

-•05 

+  .017      o 

.11         .55      .16 

40  G  Horologii 

755% 

+  2841    9.13 

57-5 

+  13.  238-.  401 

-.19 

—  .027       o 

.13         .60      .34 

756 

+  25  18    8.95 

68.0 

+  13-158--  394 

-.18 

-  -093      o 

.12         .45      .22 

60  Arietis 

757 

+  42  58    5.28 

55-5 

+  13.225-.  443 

-•25 

—  .010+   I 

.12         .39      .24 

32  Persei  / 

758 

+  48  42  41.80 

66.4 

+  13.166-  .472 

-.28 

—  .066—     2 

•13         -43      -23 

759 

—  22      7   18.49 

81.2 

+  13.  255-.  298 

-.08 

+  .042       o 

.06        .35      .12 

1  6  Eridani  r4  * 

760 

+  7251      8.91 

62.6 

+  13.169—  .702 

--83 

-.043-     I 

.IO        .48     .25 

761 

+  20  47  11.85 

71.0 

+  13.158-  .385 

-.16 

-  .030      o 

.05        .24     .11 

6  1  Arietis  TI 

762 

—  62  57  28.12 

80.0 

+  13.855-.  167 

-•05 

+  .677—20 

.13         .60      .22 

3  G  Reticuli  f1 

763 

+  3  i»  55-58 

60.7 

+  I3.I3I--35I 

-•13 

—  .029       o 

.13         .51      .28 

97  Ceti  K? 

764 

-4327    8.31 

79-o 

+  13.904-.  296 

-•05 

+  .748-27 

.08         .39      .14 

82  Eridani  e  * 

765 

+  64  13  43.75 

73-7 

+  13.  169-  .574 

-.48 

+  .016      o 

.10      .42    .18 

Magn's.  discordant 

766 

-62  53  15.81 

85-9 

+  13.841-.  168 

-•05 

+  .692—20 

•IS      -73    -23 

L  1077.     4  G  Retic  f2 

767 

+  48  51  19.66 

64.2 

+  I3.I22-.472 

-.28 

—  .021       o 

.14      .44    .25 

768 

+  27  1454-42 

75-3 

+  13.  127-.  401 

-.18 

—  .012       o 

.10      .38    .17 

62  Arietis 

769 

-2658    3.63 

82.8 

+  13.159-.  288 

-.08 

+  -039      o 

.13      .71    .23 

86  G  Fornacis 

770 

+  20  23    4.05 

63.6 

+  13.069-.  386 

-.16 

—  .017       o 

.10         .39      .21 

63  Arietis  T2 

771 

-23  5938.33 

78-3 

+  13.051-.  295 

-.08 

-•°33       o 

•H      -93    -33 

83  G  Eridani 

772 

+  49  30  19.18 

64-5 

+  13.046-.  477 

-.29 

—  .028       o 

.02         .11      .06 

773 

-25  5643-9I 

78.8 

+  13.038-.  292 

-.08 

+  .017       o 

.14         .94      .32 

87  G  Fornacis 

774 

+  33  1052.86 

88.1 

+  12.979—  .421 

—  .20 

—  .024      o 

.12         .51      .l6 

2382.    9^5    4"  153° 

775 

+  24  22   11-44 

64-3 

+  12.936-.  398 

--1? 

-.057       o 

.08         .35      .18 

64  Arietis 

776 

-77  45  I2-4i 

85-5 

+  13.056+.  166 

-.40 

+  .066—    4 

.IO         .65      .19 

777 

+  20  26  54.99 

65.8 

+  12.965-.  389 

-.16 

—  .010      o 

.IO         .38      .20 

65  Arietis 

778 

+   8  40  37.08 

73-8 

+  12.846—  .364 

-.14 

—  .078      o 

.04         .20      .08 

779 

-33    343-n 

78.0 

+  12.898—  .275 

-.06 

—  .006      o 

.12         .77      .27 

88  G  Fornacis 

780 

+  48  42  51.31 

66.4 

+  12.  803  -.482 

-.28 

—  .020      o 

.IO         .39      .20 

78i 

+  59  35  30-83 

72.9 

+  12.820—  .546 

-.40 

—  .001      o 

.05        .21      .09 

2335-     9Mo   2'.'4   160° 

782 

+  18  24  22.98 

72.0 

+  12.791-.  389 

-.16 

—  .005      o 

•  15      -55    -26 

783 

+  493°    4-32 

61.2 

+  12.748-.  487 

-.29 

—  .024      o 

.14     .49    .28 

784 

+   9  23    2.57 

70.8 

+  I2.727-.37I 

-.14 

—  .041       o 

.04        .22     .IO 

785 

-38395I-54 

89.7 

+  12.799—  .260 

-.06 

+.035-  I 

.15         .79      .22 

786 

+  5831  55.12 

65.0 

+  12.756-  .541 

--38 

.000      o 

.08         .32      .I? 

787 

+  33  27  39-6i 

79-4 

+  12.691  —  .428 

—  .20 

—  .056      o 

.18         .83      .31 

788 

-36  16  16.32 

80.  i 

+  12.749-.  267 

-.06 

+  .OO2          0 

.IO         .51      .l8 

89  G  Fornacis  x* 

789 

—  27  40    8.24 

74-7 

+  12.  795-.  290 

-.07 

+  -054      o 

.15    i.oi    .39 

Erid.  90  G  Fornacis 

790 

+  49    9  45-07 

46.0 

+  12.704—  .486 

-.28 

-.033      o 

-12         -35      -25 

34  Persei  * 

791 

+  55    621.37 

64.4 

+  12.724-  .517 

-•34 

—  .002       o 

.09         .32      .I? 

5  390.     9M2    15"  159° 

792 

+  22  27  33.86 

69.8 

+  12.600—  .400 

-.16 

—  .III          0 

.09         .36      .I? 

66  Arietis  * 

793 

—  41  59  14.70 

83.2 

+  12.738-  .247 

-.06 

+  .029      o 

.10      .54    .18 

89  G  Eridani 

794 

-ii  37  57.99 

88.4 

+  12.615—  .329 

—  .10 

-.052       o 

.13         .69      .20 

795 

+  47  39    0.14 

74-9 

+  12.670—  .482 

-.27 

+  .O22          O 

.06      .24    .10 

796 

+  47  45  34.82 

75-6 

+  12.612—  .483 

-.27 

-  -034      o 

.09         .39      .16 

797 

-695833.42 

77-9 

+  12.663-.  032 

—  .10 

+  .O2  1          O 

.13        .54     .22 

SSG.Hydri 

798 

-  36    i  44.07 

84.8 

+  12.630—  .269 

-.06 

-.008-  I 

.10      .51    .16 

91  G  Fornacis  j? 

799 

+  73    o  29.21 

77-7 

+  12.573-.  741 

-.84 

—  .026—   I 

.07         .38      .14 

Groomb  669    . 

800 

-13    i    9-52 

88.2 

+  12.  544-  .327 

-.09 

—  .012      o 

.10        .84     .21 

Lai  6476 

790  /3  1179.     I2M  o'/7  164°. 


794/8878.     i2««i"7S0. 


34 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

Hi  and  100  A  p. 

Prob.  Errors. 
aEp.     100  n     aio 

M 

h     m         s 

S                       5 

s 

s 

//            //          tt 

801 

Br  485 

5-3 

3  24  56.468 

58-4 

+  3-2742  +  .OI22 

.OOO 

—  .0006       o 

.12           .45         .26 

802 

Br  483 

5-6 

25    4.480 

68.0 

+  4.2201  +  .0435 

-.008 

+  .0027      o 

.13           .46         .24 

803 

L  1139 

6.2 

25    8.230 

84.2 

+0.2523  +  .0523 

-•043 

-.0031+  4 

.15            .80        .26 

804 

Br  486 

4-4 

25  21.041 

78.6 

+  3-3°67  +  -oi29 

—  .OOI 

+  .OOI2         O 

.03            .20         .07 

805 

Br  484 

5-4 

25  30-447 

57-1 

+  4.I382  +  .0400 

-.008 

—  .0048—     I 

.14            .38         .24 

806 

Br  487 

4.8 

25  39.276 

77-3 

+  2.9739+  .0066 

+  .O02 

+  .0006       o 

.07            .30         .12 

807 

PulkK  503 

6.0 

26  17.837 

89.8 

+  3.  8082  +  .  0272 

—  .OO5 

—  .0006      o 

.12            .69         .l8 

808 

L  1125 

6-3 

26  39.779 

78.8 

+  2.i376+.ooi8 

+  .OO2 

—  .0005—     2 

-14        -59      -23 

809 

Groomb  703 

6.0 

26  59.288 

68.8 

+  3-9386+.03i6 

—  .OO7 

—  .0008      o 

.18      .70     .34 

810 

Br  489 

5-9 

27  11.233 

72-9 

+  3-24I2  +  .OH3 

—  .001 

+  .0018      o 

.10        .34      .16 

8n 

L  1130 

6-3 

27  24.496 

88.6 

+  1.9248  +  .0036 

+  .OOI 

+  .0082      o 

.15            .72         .22 

812 

K  Reticuli 

4-9 

27  37.810 

85-5 

+  1.0362  +  .02  28 

-.015 

+  .0542-     2 

.14           .80        .24 

813 

L  1128 

7-4 

28    8.000 

89.2 

+  2.  5853  +  .0026 

+  .003 

+  .0033      o 

.11         1.  2O        .27 

814 

t  Eridani 

3-7 

28  13.126 

74-o 

+  2.8247  +  .0056 

+  .OO2 

-.0657+     I 

.03            .18         .O? 

815 

Br  491  m 

6.1 

28  31.168 

70.4 

+3.5462  +  .0186 

-.003 

+  .0013      o 

.10        .42       .19 

816 

Br  495 

4-3 

29  22.251 

82.5 

+  2.  6489  +.0030 

+  .003 

+  .oo'S$3'y  o 

.07            .27         .IO 

8i7 

i/f  Persei 

4.4 

29  22.851 

72.0 

+  4.2452  +  .043  1 

—  .OIO 

+  .0035      o 

.08            .27         .13 

818 

L  1144 

5-8 

29  35.768 

82.4 

+  1.7845  +  .0053 

.OOO 

+  .0066+   i 

•14        -75      -25 

819 

L  1164 

6.0 

29  50.080 

80.8 

+0-5977  +  .0352 

—  .026 

+  .OOI2         O 

.13        .78      .26 

820 

L  1138 

6.8 

30  33.049 

76.2 

+  2-4045  +  .OO2O 

+  .OO2 

+  .0013      o 

.16      i.oo      .38 

821 

Br  494 

7.0 

3i    5-094 

65.6 

+  3-5206  +  .OI77 

-.003 

—  .0008      o 

.09            .44         .21 

822 

PulkH  510 

5-9 

31  11.696 

93-i 

+  2.8570+.005I 

+  .OO  I 

+  .0018       o 

.13            .8l          .19 

823 

Br  496 

6.4 

31  39-368 

73-2 

+  3.0758  +  .0080 

.OOO 

—  .0014—    I 

.08            .32         .14 

824 

Br  498 

5-5 

31  44.021 

73-8 

+  2.73I7  +  .0038 

+  .OO2 

+  .0017       o 

.09            .48         .20 

825 

Br  497 

4-4 

31  46.123 

7°-4 

+  3-0583  +  .0076 

.OOO 

—  .0156—     2 

.07            .24         .12 

826 

Pi  94 

5-5 

33  28-377 

80.0 

+  5.  1  666  +  .0896 

—  .O2O 

—  .0009      o 

.05            .34         .11 

827 

L  1161 

4.6 

33  30-388 

79.0 

+  2.I522  +  .OO23 

+  .OO2 

—  .0007      o 

.IO           .46        .18 

828 

Brisb  593 

5-8 

33  37-io6 

78.6 

-2.  2950+.  2315 

-•253 

-.0040-   3 

.07             .64         .21 

829 

Pi  103 

6-5 

33  46.309 

75-7 

+  3-3875  +  .OI4i 

-.003 

+  .0030      o 

.IO            .48         .19 

830 

Groomb  642 

6.0 

33  55-o8- 

74-6 

+  I9-993-  +  3-3I5" 

+  .164-  +64 

.05            .28         .11 

831 

Br  502 

6.2 

34    4-852 

7Q.8 

+  2.  9594  +.0062 

+  .OOI 

—  .0010—    I 

.10        .38      .18 

832 

Pi  97 

6.1 

34  28.104 

75-7 

+  4.9097  +  .0737 

-.018 

.0000      o 

.IO            .48         .19 

833 

Pi  104 

5-7 

34  37-I38 

67.1 

+  3.8930+.  0283 

-.008 

+  .0019       o 

-13            -78         .36 

834 

T  Fornacis 

6-3 

34  38-038 

84-3 

+  2.4943  +  .0024 

+  .OO2 

+  .0009       o 

.09            .54         .l6 

835 

Br  503 

6.0 

34  38.561 

61.4 

+  3.  1214+.  0089 

.OOO 

-  .0023      o 

.14            .51          .28 

836 

Br  500 

6.2 

34  47.820 

72.0 

+3-5758  +  .  0188 

—  .OO4 

+  .OOII         O 

.07             .36         .15 

837 

Br  505 

5-6 

35  41.242 

71.8 

+  2.  9676  +.0065 

+  .OOI 

—  .0001       o 

.12            .54        .24 

838 

8  Persei 

3-o 

35  48.124 

73-9 

+  4.2534+.04I4 

—  .012 

+  .0032      o 

.03           .14        .06 

839 

Br  501 

5-i 

36    2.188 

66.2 

+  3.  7928  +  .  0249 

—  .007 

+  .0008      o 

.14           .51         .26 

840 

Pi  102 

6.1 

36  32.769 

76.6 

+  5.6265  +  .  1154 

—  .027 

+  .0164—    I 

.09           .48        .l8 

841 

Br  504 

5-7 

36  32.797 

73-o 

+  3-4534  +  -OI55 

-.003 

+  .OOOI         O 

.09           .40        .18 

842 

Pi  105 

5-2 

37  17-384 

79.8 

+  5.  2063  +  .0888 

—  .024 

+  .0006      o 

.10        .45      .17 

843 

Br  507 

6-5 

38    0.178 

66.7 

+  3.4629  +  .  0154 

—  .004 

+  .0085       o 

.12            .44         .22 

844 

o  Persei 

3-8 

38    2.747 

73-o 

+  3-7524  +  .0233 

-.006 

+  .0008       o 

•05            -34         -14 

845 

PulkM  529 

5-6 

38    2.981 

94.8 

+  3.8707  +  .0268 

-.008 

+  .0035       o 

.14            .78         .18 

846 

8  Fornacis 

5-i 

38  16.243 

80.6 

+  2.  3847  +  .0023 

+  .OO2 

—  .0004       o 

.10        .51       .18 

847 

v  Persei 

3-9 

38  23.857 

78.4 

+  4-o6is  +  .0334 

—  .OIO 

—  .0008       o 

.04            .24         .09 

848 

8  Eridani 

3-7 

38  27.437 

72.6 

+  2.87i9  +  .oo62 

+  .00  1 

—  .0063  +   4 

.04            .22         .09 

849 

Pi  138 

5-9 

38  47-I92 

7i-3 

+  2.  8630+.  0052 

+  .OOI 

—  .0012       o 

.12            .56         .24 

850 

Radcl  1042 

s-s 

3  38  49.387 

81.4 

+  6.1707  +  .  1536 

-.036 

+  .0075-     2 

.IO            .64         .21 

813    Close  double? 


815  S  412.     6*8-6*9  <  i";  binary;  IOM  22"  59°. 


CATALOGUE  OF  6 1 88  STARS  FOR  1 900 


35 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'and  100  AH' 

Prob.  Errors. 
SEp.  loop'  Sio 

Remarks. 

801 

o        /           // 

+  10  59  36.29 

56-4 

It                      // 

+  I2-533--377 

// 

-.14 

// 
—  .019      o 

//                tr            ft 

.12      45    .27 

4Tauri  s 

802 

+  47  40  57.06 

65.0 

+  12.514—  .486 

-.27 

—  .029      o 

.12      45    .24 

803 

—  69  41    9.69 

82.9 

+  12.617-.  034 

—  .10 

+  .079      o 

.12         .64      .21 

59  G  Hydri 

804 

+  123538.43 

74-4 

+  12.520—  .382 

-.14 

—  .004      o 

.04         .20      .08 

STauri/ 

805 

+  45  43    4-9° 

56.7 

+  12.444-476 

-.26 

—  .069+    I 

.12         .37      .23 

36  Persei 

806 

-   5  25    4.72 

71.6 

+  I2.5I3-.344 

—  .11 

+  .OIO         0 

.06         .25      .12 

17  Eridani 

807 

+  35    7  17-88 

87.2 

+  12.45  1  -.440 

—  .20 

—  .008      o 

.12         .58      .18 

808 

-41  42  25.92 

70.6 

+  12.  257-.  250 

-•05 

-.177      o 

.11         42      .20 

loo  G  Eridani 

809 

+  39  33  44-o6 

64.2 

+  12.368-.  456 

-•23 

—  .044       o 

.17         .60      .32 

810 

+  92    7-96 

70.8 

+  12.358-  .377 

-•13 

—  .040      o 

.09         .32      .16 

6  Tauri  / 

811 

-47  42  59.97 

83.2 

+  12.399—  .227 

-.04 

+  .016—    I 

.11         .50      .17 

44  G  Horologii 

812 

-63  17  23.84 

84.6 

+  12.737-.  130 

-•°5 

+  .369-   6 

.11         .64      .20 

813 

-2457  18.96 

88.3 

+  12.366-  .303 

-.08 

+  .033       o 

.10    1.29    .30 

95  G  Fornacis* 

814 

-   9  47  48-19 

77-9 

+  12.340-.  322 

—  .10 

+  .013+  8 

.03         .19      .07 

815 

+  24    7  44.44 

64-9 

+  12.279-414 

-.16 

—  .027       o 

.08         .29      .15 

7  Tauri* 

816 

-2158    5-38 

82.3 

+  12.227—  .311 

-.08 

—  .020      o 

.07      .27    .10 

19  Eridani  T* 

817 

+47  Si  36-39 

66.1 

+  12.221—  .496 

-.27 

—  .026      o 

.08         .24      .13 

818 

~5°43    4-45 

80.2 

+  12.318—  .212 

-.04 

+  .086-  I 

.11         .53      .I9 

45  G  Horologii 

819 

-66  49  41.38 

78.2 

+  12.217—  .074 

-.07 

+  .OO2         O 

.IO         .6l      .22 

7  G  Reticuli 

820 

-32  12  32.56 

71.0 

+  12.  154-  .284 

-.06 

—  .on      o 

.l6      I.  II      .46 

98  G  Fornacis 

821 

+  22  52  48.88 

64.6 

+  12.092—  .414 

-.16 

—  .036      o 

.08         .37      .19 

9  Tauri 

822 

-ii  31  41.35 

89.6 

+  I2.I95-.337 

-.09 

+  .074      o 

.12         .77      .20 

823 

+  o  15  41.67 

65.0 

+  11.938-.  363 

—  .11 

-.150      o 

.07         .26      .14 

* 

824 

-1747  53-25 

7i-5 

+  12.070-.  323 

-.08 

-.013      o 

.09         .38      .17 

20  Eridani 

825 

+  05    3.82 

67.4 

+  11.599-  -359 

—  .11 

-.482+    2 

.06         .23      .12 

10  Tauri 

826 

+  62  53  33.37 

77-8 

+  11.982—  .610 

-•45 

+  .O2  1         O 

.06         .32      .12 

Groomb  716 

827 

-  40  36    9.90 

77-9 

+  11.916-  .257 

-•05 

-  -043      o 

.09      43    .17 

no  G  Eridani  y 

828 

—  78  41   12.22 

79-3 

+  11.923  +  .  264 

-•5i 

—  .028      o 

.06      .59    .19 

i  G  Mensae 

829 

+  16  12  40.85 

74.1 

+  11.901  —  .402 

-•15 

-  .039      o 

.09      43    .18 

830 

+86  19  57.09 

77-9 

+  11.864-2.367 

—  .066—  19 

.05      .29    .11 

831 

-   5  56  48.27 

69.0 

+  H.7I5-.352 

—  .10 

—  .204      o 

.08      .31    .15 

21  Eridani 

832 

+  593849.54 

72.4 

+  11.893-.  581 

-•39 

+  .OO2         O 

.10      42    .19 

833 

+  37  15  26.80 

63-7 

+  11.859—  .462 

—  .21 

—  .022      o 

.10      .61    .30 

834 

—  28  16  10.99 

83-4 

+  11.912—  .298 

-.07 

+  .032       o 

.09      .52    .16 

835 

+   2  43  54.12 

60.7 

+  H.885-.37I 

—  .11 

+  .006       o 

.12         46      .26 

12  Tauri 

836 

+  25    021.88 

71.0 

+  11.  853  -.425 

-.16 

-.015      o 

.06         .31      .14 

ii  Tauri 

83? 

-    532    0.89 

70.0 

+  11.803-.  355 

—  .IO 

—  .002       o 

.10      41    .19 

22  Eridani 

838 

+  47  28    4.36 

69.7 

+  11.  764-  .507 

-.26 

-•033       o 

.03         .14      .06 

839 

+  33  38  39-29 

60.7 

+  11.770-452 

-.19 

—  .on      o 

.11         42      .23 

40  Persei  o  * 

840 

+  66  53  16.76 

74-2 

+  11.642—  .672 

-•55 

—  .IO2—     2 

.08         .39      .16 

841 

+  19  22  48.09 

72.2 

+  11.725-413 

-•15 

—  .019      o 

.08         .34      .15 

13  Tauri 

842 

+  63    i  45.51 

72.4 

+  11.679—  .622 

-44 

-.013      o 

.09         .32      .15 

843 

+  192055.51 

66.5 

+  11.576-417 

-•15 

—  .065—     I 

.11         .39      .20 

14  Tauri 

844 

+  31  58  17.06 

72.9 

+  11.614—450 

-.18 

—  .024      o 

•05      -34    -i4 

* 

845 

+36    8  39.46 

91.2 

+  11.603-465 

—  .20 

-  -035      o 

.13      .61    .17 

846 

-32  15  28.05 

78.6 

+  11.629-.  288 

-.06 

+  .007       o 

.09      45    .17 

Eridanus 

847 

+  42  15  45.90 

76.7 

+  11.614-488 

-•23 

+  .OOI         0 

.05      .23    .09 

848 

—  10    6    6.67 

70.4 

+  12.352-.  346 

-.09 

+  •743+    i 

.05         .22      .IO 

849 

—  10  48    7.87 

74-3 

+  11.576-.  346 

-.09 

—  .009      o 

.11         .50     .21 

850 

+  70  33  41.60 

87-4 

+  11.524-  .740 

-.68 

-.059-  I 

.11         .64     .18 

823  S  422.     81"2  6"  248°;  slow  binary. 


8392431. 


844  0  535-     8^5  o'/9  50°;  slow  binary. 


PRELIMINARY   GENERAL   CATALOGUE   OF   STARS   FOR    1900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

|i  and  100  A  n 

Prob.  Errors. 
aEp.      loop,     a  10 

M 

h     m         s 

s               s 

S 

s 

//              //           // 

851 

Br  508 

5-8 

3  38  51.446 

63.6 

+  3-5589+-OI78 

-.005 

+  .0014      o 

.11          .46       .24 

852 

Br  509 

3-8 

38  56.129 

68.9 

+  3-5550+-OI77 

-.005 

+  .0014      o 

.04          .26        .11 

853 

Groomb  731 

5-8 

38  59-421 

61.4 

+  4-1809+.  0375 

—  .012 

+  .0031      o 

.18          .72        .39 

854 

L  1198 

4-5 

39    7-67I 

82.6 

+  2.2237+.OO22 

+  .002 

—  .0069       o 

.10        .51       .17 

855 

Br  510 

6.0 

39  11.611 

69.7 

+  3.57i8+.oi8i 

-.005 

+  .OOI2         O 

.12           .56         .26 

856 

Br  511 

4-4 

39  15-178 

63.0 

+  3-563°+  -OI79 

-.005 

+  .0008      o 

.11            .40        .22 

857 

Br  517 

5-4 

39  25-709 

83.2 

+  3.  0450  +.007  5 

.000 

+  .0009       o 

.08           .52         .16 

858 

y  Camelopardi 

4-7 

3947-778 

80.6 

+  6.  2601  +  .  1596 

-•039 

+  .0060—    I 

.04           .28         .09 

859 

Br5i8 

6.1 

39  49-63° 

80.2 

+  3.0643  +  .0078 

.000 

+  .0036       o 

.11            .54         .20 

860 

Brsi2 

3-9 

39  52-492 

66.9 

+  3.5629+.  0178 

—  .005 

+  .0021         0 

.10        .38      .19 

861 

Br  513 

6.1 

39  56.890 

69.1 

+  3-5663  +  .OI79 

—  .005 

+  .OOI2          O 

.13           .54        .26 

862 

Dpt  373 

8.7 

40  12.203 

77-9 

+  4.0828  +  .0300 

—  .010 

+  .0532-10 

.11        .68      .24 

863 

Br  519 

5-5 

40  21.567 

61.7 

+  3.  1841  +  .0097 

—  .001 

+  .0018      o 

.16        .64      .35 

864 

Pi  121 

4-7 

40  21.660 

81.6 

+  5.4454+.  ion 

-.030 

—  .0007       o 

.09        .45      .16 

865 

Brsi6 

4.2 

4°  23.355 

62.0 

+  3-5537  +  -OI75 

—  .005 

+  .0017      o 

.09        .39      .21 

866 

Radcl  1059 

6.0 

40  50.032 

98.1 

+  5-2244+.o87o 

—  .027 

—  .0010—    I 

•15        -75      -i7 

867 

Br  520 

7-4 

41  24.266 

65-9 

+  3-5588  +  .OI75 

-.005 

+  .0014      o 

.10        .58      .28 

868 

•a  Eridani 

4-7 

41  24.831 

69-5 

+  2.8327  +  .0050 

+  .OOI 

+  .0024      o 

.13        .50      .24 

869 

jyTauri 

2.8    . 

41  32.308 

70.2 

+  3-5588+.OI75 

-.005 

+  .0014       o 

.03        .15      .07 

870 

L  1237  m 

6.7 

42    0.928 

82.0 

+  1.5261  +  .0090 

-.003 

+  .0030+  I 

.15        .78      .27 

871 

L  1232 

5-9 

42    9.431 

82.3 

+  1.8599  +.0045 

.000 

—  .0027       o 

.18      1.05      .34 

872 

Br  522 

5-7 

42  25.531 

85-1 

+  3-5453  +  -OI7I 

-.005 

+  .0023       o 

.13        .46      .17 

873 

Br  53° 

4-3 

42  32.712 

83-7 

+  2.5798  +  .0025 

+  .OO2 

-.0118-   3 

.06        .30      .10 

874 

Br  529 

5-3 

42  47-175 

68.8 

+  3.  2860+.  0115 

—  .002 

+  .0024       o 

.08        .39      .18 

875 

ft  Reticuli 

3-8 

42  56.636 

78.0 

+  0-7377  +  .0282 

—  .OI9 

+  .0472-    4 

.12            .54         -21 

876 

Groomb  743 

5-9 

43    6.591 

63-8 

+  4.i629+.03s8 

-.013 

—  .0015       o 

•H        -75      -37 

877 

Br527 

3-7 

43  12.865 

69.1 

+  3.56oi  +  .oi73 

-.005 

+  .0014      o 

.04            .22         .IO 

878 

Br  524 

5-3 

43  i3-24i 

65-9 

+  3-78H  +  .0234 

-.008 

—  .0032       o 

.16            .70         .35 

879 

Br  528 

5-3 

43  14-132 

67.2 

+  3-5620+.OI74 

—  .OO5 

+  .0014      o 

.08            .34         .I? 

880 

Br  532 

5-2 

43  21.586 

80.9 

+  2.5789+.  0030 

+  .OO2 

+  .0032       o 

.07             .34         .12 

881 

p  Fornacis 

5-8 

43  53-649 

85-2 

+  2.4227  +  .OO2I 

+  .OO2 

+  .O020—     2 

.12             -75          .22 

882 

L  1238 

6-S 

44    3.882 

87.4 

+  2.  2567  +  .OO24 

+  .OO2 

+  .0018       o 

.11             .60         .l8 

883 

Pi  170 

5-5 

44  18.119 

64.9 

+  3-5989+.oi8i 

-.005 

+  .OO29—     I 

.12            .62         .30 

884 

Pi  182 

5-8 

44  54-189 

88.4 

+  2.2I3I  +  .OO25 

+  .OO2 

+  .0065      o 

.13            .78         .21 

885 

L  1244 

S-° 

44  54-446 

83.8 

+  2.  2135  +  .OO25 

+  .OO2 

+  .0068      o 

.10        .52       .17 

886 

Pulka  557 

6.0 

45  30-037 

95-9 

+  3.8255  +  .0242 

-.008 

+  .0009       o 

.14            .82          .l8 

887 

Lai  7019 

5-9 

45  35-997 

98.8 

+  4.8435  +.0631 

—  .025 

+  .0118       o 

.12          I.IO         .17 

888 

L  1248 

4.2 

45  42-709 

84.2 

+  2.  2441  +  .0025 

+  .OO2 

—  .0042      o 

.09            .48         .15 

889 

Radcl  1086 

6.0 

46  23.684 

97.0 

+  4.3324+.  0409 

—  .Ol6 

+  .0055       o 

.15            .8l          .18 

890 

BrS35 

5-9 

46  40.226 

56-3 

+  3.  1943+.  0097 

—  .OO2 

.0000       o 

.l6            .60         .36 

891 

Brs36 

7.0 

47    3-957 

86.2 

+  3.0426  +.0074 

.OOO 

-.0015       o 

.11             .51          .16 

892 

Pi  187 

6-3 

47  26.838 

82.6 

+  3-425I  +  .OI38 

—  .004 

+_.OIOO         0 

.08            .48         .15 

893 

BrS38 

5-6 

47  45-203 

81.1 

+  2.  9607  +.0064 

.OOO 

-^-~.ooo6      o 

.08            .39         .14 

894 

£  Persei 

2.8 

47  50-657 

77-7 

+  3-7622  +  .0220 

-.008 

+  .OOIO          O 

.03            .21          .08 

895 

Groomb  745 

8-5 

48  24.217 

82.4 

+  7-6357  +  -2521 

—  .OQI 

+  .1009—  29 

.13        .86      .27 

896 

Pi  177 

5-° 

48  35-724 

78.6 

+  5.  2558+.  0831 

-.036 

+  .0008       o 

.08        .38      .14 

897 

Pi  178 

5-5 

48  36.392 

82.0 

+  5.0830+.  0738 

-.032 

+  .0004       o 

.06            .38         .12 

898 

Pi  186 

5-5 

48  45-912 

71.2 

+  4.  3046  +.03  9  1 

—  .Ol6 

+  .0031       o 

.12            .48         .22 

899 

y  Hydri 

3-i 

48  47.058 

70.7 

—  0.9798  +  .  1071 

-.083 

+  .01  10+  7 

.05            .32          .14 

900 

BrS33 

5-5 

3  49  10.113 

65-5 

+  4.4414+.  0438 

-.018 

+  .0094-  I 

•09        -33      -17 

870.    See:  8M  o'/6  290°;  9^5  5" 


'3° 


874  2  452.     IOM  9"  60°. 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


37 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'andiooAp.' 

Prob.  Errors. 

SEp.    1  00  (x'    SlO 

Remarks. 

851 

+  23  58.29.36 

60.2 

//                      tt 

+  11.525-429 

-.16 

-  -055       o 

//               n           it 
.09        .37      .21 

i6Tauri 

852 

+  23  47  56.22 

69.8 

+  11.  525-.  428 

-.16 

-  .050      o 

.04         .22      .10 

17  Tauri 

853 

+45  22    4-91 

62.0 

+  11.556-  .503 

-.24 

—  .015       o 

•!5      -57    -31 

854 

-37  37  44.83 

76.0 

+  11.483—  .269 

-•°5 

-.078+  I 

.10      .40    .17 

1246  Eridani  h 

85S 

+  2431  31.33 

68.2 

+  11.  501  -.430 

-.16 

-  -055      o 

.11      .56    .26 

18  Tauri 

856 

+  24    9  12.63 

53-7 

+  11.  504-  .430 

-.16 

—  .048      o 

.08     .29   .18 

19  Tauri  q 

857 

—    i  28  42.66 

76.4 

+  11.530-.  368 

—  .11 

—  .009      o 

•09      -39    -'6 

24  Eridani 

858 

+  71     i  27.31 

81.5 

+  11.477-.  753 

-.70 

-.036-  I 

.04      .26    .08 

5H 

859 

-   03640.75 

78-5 

+  H.5IO-.37I 

—  .11 

—  .001      o 

.09      .38    .15 

25  Eridani 

860 

+  24    3  18.99 

60.6 

+  11.462-.  431 

-.16 

-  .045      o 

•09      -35    -19 

20  Tauri 

86  1 

+  24  1432.20 

62.1 

+  11.461-.  431 

-.16 

—  .041       o 

.12         .48      .26 

21  Tauri 

862 

+  41    858.58 

72.8 

+  10.251-.  499 

—  .22 

-1-233-7 

.09         .41      .l8 

2443-    9MS'.'648° 

863 

+   5  44  12.55 

55-7 

+  11.460—  .386 

—  .11 

-.013      o 

•IS      -58    -35 

29  Tauri  «  (w1) 

864 

+  65  13    1.07 

79-3 

+  11-473-  -656 

-•49 

+  .OOI          0 

.08      .36    .14 

865 

+  23  38  12.40 

58.0 

+  11.417-.  430 

-.16 

-  -054      o 

.08      .31    .18 

23  Tauri 

866 

+  62  59  22.76 

00.6 

+  11.392—  .630 

-•44 

-  .047       o 

•13      -77    -i5 

867 

+  23  48.24.45 

66.4 

+  11.344-.  432 

-.16 

—  -054      o 

.10     .55    .26 

24  Tauri 

868 

-12  2454.76 

68.3 

+  11.456-  .345 

-.09 

+  -059      o 

.11      .38    .19 

869 

+  23  47  45-44 

67.4 

+  11.340-.  432 

-.16 

—  .048      o 

.03      .13    .06 

Alcyone 

870 

-5435  19.63 

77-5 

+  11.414—  .189 

-.04 

+  .060      o 

.12         .55      .22 

13  G  Reticuli  * 

871 

-47  40  16.79 

76.0 

+  11.318-  .228 

-.04 

—  .025       o 

.14         .64      .26 

51  G  Horologii 

872 

+  23    6  50.32 

81.0 

+  11.  274-  .432 

-.16 

-  .050      o 

.11         .42      .l6 

873 

-23  32  42.24 

81.1 

+  10.792-.  314 

-.07 

-•523+  I 

.06         .35      .12 

27  Eridani  T* 

874 

+  1050    8.36 

62.9 

+  11.276—  .401 

—  .12 

—  .022          O 

.07         .28      .15 

30  Tauri  e  * 

875 

-65    7  17-59 

75-6 

+  11.359-  .099 

-.06 

+  .073-  6 

.IO         .44      .l8 

876 

+  44  39  44-57 

56-3 

+  11.242—  .506 

-.24 

-•033       o 

•13         -51      -30 

877 

+  23  445I-52 

69-5 

+  H.2I7-.434 

-•IS 

—  .050      o 

.04         .25      .11 

27  Tauri  * 

878 

+  32  47    4.68 

58.5 

+  11.253-.  460 

-.18 

—  .013       o 

.14         .56      .32 

42  Persei  w 

879 

+  23  49  52.06 

65.8 

+  11.216-  .434 

-•IS 

—  .049       o 

.08         .35      .18 

28  Tauri 

880 

-2411    3.91 

81.4 

+  n.3io-.3i6 

-.O? 

+  -054      o 

.07         .28      .IO 

28  Eridani  r7 

881 

-3028    8.54 

80.0 

+  10.977—  .298 

-.06 

—  .241       o 

.12        .52      .20 

882 

-362449.73 

84.8 

+  11.  208-.  278 

-•05 

+  .003       o 

.10      .51    .16 

133  G  Eridani 

883 

+  25  16  39.65 

61.6 

+  11.  080—  .440 

-.16 

—  .108      o 

.11        .55      .29 

* 

884 

-37  5539-90 

86.5 

+  11.  129-.  273 

-•°5 

-.015-  I 

.11         .64     .19 

1  135  G  Eridani/ 

885 

-37  5532-9i 

80.  i 

+  11.126—  .274 

-•05 

-.018-  I 

.IO        .49     .18 

1  7-5"  207° 

886 

+  34    3  26.78 

9J-3 

+  H.IOI—  .469 

-.19 

.000      o 

.14        .6l      .18 

887 

+  57  4040-65 

98.6 

+  11.015-.  594 

-•35 

-.079-  I 

.10      .93    .15 

888 

-3630  10.97 

82.0 

+  11.036-.  277 

-•05 

—  .050      o 

•09      -45    -15 

138  G  Eridani  g  (or  v2) 

889 

+  48  21    7.80 

94-4 

+  11.017-.  533 

-.26 

—  .019—    I 

.15      .71    .19 

890 

+  6  14   3.61 

53-4 

+  11.009-.  394 

—  .11 

—  .007       o 

•H      -57    -35 

31  Tauri  M2 

891 

-   i  26  54.33 

82.5 

+  10.974-  .375 

—  .10 

-.013      o 

.09      .38    .14 

892 

+  17    i  45.22 

78.8 

+  10.926—  .424 

-.14 

-•033-  l 

.07      .40    .14 

893 

-   5  39  35-67 

75-o 

+  10.928—  .366 

-.09 

—  .008      o 

.08      .37    .15 

30  Eridani  * 

894 

+31  35  12.02 

74-4 

+  10.913—  .464 

-.18 

—  .017      o 

.04        .21      .08 

S464.    9M3  13"  208° 

895 

+  7553    6.80 

81.8 

+  10.358-  .951 

-i.  06 

-•53°-12 

.10         .67      .21 

896 

+  62  46  44.69 

74-7 

+  10.877-.  648 

-•43 

+  .002       o 

.07         .32      .13 

89? 

+  6048  57.37 

77-2 

+  10.858-  .627 

-•39 

—  .016      o 

.06         .32      .12 

OS67.       8M22"45° 

898 

+  47  34  39-56 

63-4 

+  10.838-  .533 

-•25 

—  .024      o 

.11         .42      .22 

899 

-7432  43-78 

71.8 

+  I0.977  +  .H5 

-•23 

+  .116-    i 

•05         .31      -13 

900 

+  50  24  20.46 

55-8 

+  10.702—  .550 

-.27 

-.130-  I 

.08         .22      .14 

43  Persei  A 

877  S  453-     9M  o'.'s  45° ? 


883  OS  65.     fff  3-6^6  c/'6  202°;  binary. 


893  h  338.     io«"8"i35° 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  100  A  p 

Prob.  Errors. 
aEp.      100  (i     a  10 

M 

h    m         s 

s               s 

s 

s 

//            it         it 

901 

Br  540 

4-9 

3  49  16.154 

62.3 

+3.0108  +.0069 

.000 

+  .0023       o 

.10        .36      .20 

QO2 

Br  543 

4.8 

49  27.360 

79-9 

+  2.  5518+.  0030 

+  .OO2 

+  .OO2I          O 

•09        .42      .15 

903 

L  1275 

5-3 

49  S°-3  10 

S3-4 

+  2.  2854+.  OO26 

+  .OO2 

+  .0028      o 

.11         .57       .18 

904 

Pi  194 

5-6 

50    1.814 

76.0 

+  3.854I  +  .0242 

—  .009 

—  .0014      o 

.18        .90      .36 

90S 

L  1273 

7-3 

50    9.499 

80.4 

+  2.4754+.  0028 

+  .O02 

+  .0017       o 

.16        .90      .31 

906 

L  1287 

6.0 

50  27.403 

83-6 

+  1.8570+.  0045 

.OOO 

+  .0029—     I 

.18       1.14      .35 

907 

L  1286 

5-8 

So  53-007 

86.0 

+  2.ioi6+.oo3i 

+  .OOI 

—  .0005      o 

.14        .81       .24 

908 

Pi  197 

5-8 

5057-4I7 

73-3 

+  3-5379+-oi59 

-.005 

+  .0046—    I 

.11            .50        .21 

909 

Br  541 

6-3 

51    8.021 

69-5 

+  3-55I7  +  -oi63 

—  .006 

+  .OO2I          O 

.09           .50         .22 

910 

«  Persei 

2.9 

51  8.468 

76.4 

+  4-OI4I  +  .0286 

—  .012 

+  .0023       o 

.04           .16         .07 

911 

L  1293 

7.2 

51  40.127 

88.3 

+  2.I535  +  .0029 

+  .OOI 

—  .0002       o 

.15             .70         .21 

912 

Br  544 

6.9 

51  48-131 

71.9 

+  2.  7930+.  0046 

+  .OOI 

+  .0007       o 

.IO            .52         .22 

913 

(  Persei 

4.1 

52  28.473 

81.4 

+  3.8830+.  0245 

—  .010 

+  .OOII          0 

.04            .24         .08 

914 

Pi  160  m 

5-4 

53  16.988 

71.0 

+  9.8079+.  5055 

—  .211 

-.0057-     I 

•07        -33      -14 

915 

y  Eridani 

3-1 

53  21.814 

72.1 

+  2-7977  +  -0045 

+  .OOI 

+  .0046—    I 

.03        .16      .07 

916 

Paris  4661 

6.0 

5448.713 

95-5 

+  2.8101  +  .0048 

+  .OOI 

—  .0016      o 

.14        .86      .19 

917 

Br  545 

7-2 

55    0.358 

80.  i 

+  3-5565  +  -0160 

—  .OO6 

+  .OOII         O 

.12        .38      .16 

918 

Bruss  1532 

8-3 

55    0.803 

92.6 

+  3-5564+  -0160 

—  .OO6 

+  .OOIO         O 

.15             .82          .21 

919 

Pi  215 

6.2 

55    2.987 

78.9 

+  3.45i2  +  .oi37 

—  .OO5 

+  .0095       o 

.10            .57          .20 

920 

A  Tauri 

Var. 

55    8.328 

78.6 

+  3.3i92  +  .oii4 

-.003 

—  .0004      o 

.03            .21          .08 

\ 

921 

Br  547 

7.2 

55  17-353 

70.0 

+  3.4894+.  0144 

—  .OO5 

+  .0027       o 

.09            .33          .16 

922 

L  1318 

7-4 

55  23-351 

90.1 

+  1.7160+.  0061 

—  .OOI 

+  .0017       o 

.15             .80         .22 

923 

BrsSi 

4-7 

55  39-677 

81.6 

+  2.5562  +  .0032 

+  .OOI 

+  .0006      o 

.08            .36         .13 

924 

Pi  208 

5-2 

56    6.984 

64.1 

+  4.9704+.  0637 

-•034 

+  .0001          0 

•IS         -54       -29 

925 

Pi  220 

5-9 

56  18.720 

74.8 

+  3.  2689+.  0105 

-.003 

+  .0002       o 

.14            .82          .32 

926 

Br  55° 

5-3 

56  27.954 

69.7 

+  3-0373  +  -007  1 

—  .001 

+  .0016       o 

.11             .39         .19 

927 

Grvva,  284 

8.7 

56  32.010 

85.8 

+  4.OI86+.O222 

—  .010 

+  .1420—   8 

.09            .62          .17 

928 

L  1330 

6.4 

56  34-037 

87.1 

+  I.2823  +  .OI23 

—  .006 

+  .0029       o 

.14            .80         .23 

929 

L  1316 

6.1 

5641.234 

79-6 

+  2.  3923  +  .O028 

+  .OOI 

+  .0033       o 

.13             .69         .25 

930 

&  Reticuli 

4-5 

57    9-705 

74-3 

+  0.9406  +.01  94 

—  .on 

+  .0007—    I 

.11             .45          .19 

931 

Pi  226 

5-6 

57  29.218 

86.0 

+  3.0722  +  .007I 

—  .OOI 

+  .0107—    I 

.IO            -75          .20 

932 

v  Tauri 

4.0 

57  50-140 

81.8 

+  3.i876+.oo92 

—  .002 

+  .OOOI         O 

.04            .26         .08 

933 

Br  552 

S-8 

58  22.702 

72.2 

+  3.58i2  +  .oi02 

—  .006 

—  .0003      o 

.IO            .50         .21 

934 

Br5SS 

5-6 

58  26.528 

84-5 

+  3.  1770+  .0089 

—  .002 

+  .0006      o 

.12            .42         .16 

935 

Pi  234 

5-7 

58  3!-707 

77-4 

+  3-2435  +  .0098 

—  .002 

+  .0107       o 

.l6           .8l         .31 

936 

Br554 

4-5 

58  46.901 

72.8 

+  3-5407  +  -OI5I 

—  .006 

+  .0067       o 

.04           .24        .IO 

937 

Pi  238 

5-6 

58  56.076 

75-o 

+  3-I338  +  -oo8i 

—  .OOI 

+  .OIOO—     I 

.13            .70         .28 

938 

A.  Persei 

4.4 

59    7-899 

69.6 

+  4-4523  +  .04IO 

—  .022 

—  .0003      o 

.08           .27         .14 

939 

BrS56 

6.2 

59  24.948 

72.8 

+  3-S457  +  -oi5o 

—  .006 

+  .0125-  I 

.08            .32         .14 

940 

y  Reticuli 

4-5 

59  26.981 

70.2 

+  O.8576+.O2I2 

—  .012 

—  .0003  +    I 

•13            -52         -25 

941 

t  Reticuli 

4.9 

59  40.815 

77-4 

+  0.9619+.  0191 

—  .010 

+  .0071+     2 

.15        .68      .27 

942 

Lai  7600 

5-9 

3  5941-977 

98-9 

+  2.  8044  +.0048 

+  .OOI 

+  .0005       o 

.12         1.  06         .17 

943 

BrSS8 

5-3 

4    o  28.226 

71.1 

+  3.6724+.oi78 

-.008 

+  .OOI2          0 

.12            .48         .22 

944 

\l>  Tauri 

S-3 

o  49.400 

78.8 

+  3.7oi9+.oi87 

-.008 

—  .0062       o 

.10        .38      .16 

945 

Pi  242 

7-4 

o  54-348 

71.4 

+  3-9878  +  .025o 

-.013 

+-0153-  1 

.11            .39         .l8 

946 

L  1380 

7.0 

4     i  18.462 

82.0 

—  0.3906  +.0647 

—  .041 

-.0037+   3 

.16            .75          .27 

947 

Br557 

4.2 

i  23-953 

79-7 

+  4.3406+.  0362 

—  .020 

+  .0032       o 

.04           .21         .07 

948 

Pi  251 

5-7 

I  30.127 

82.5 

+  2.4713  +  .  0031 

+  .OOI 

+  .0147       o 

.10        .54      .18 

949 

BrS6o 

6-3 

i  38.678 

80.0 

+  3.  9542  +  .0245 

-.013 

-.0088-     2 

.09           .39         .15 

95<> 

Br56i 

5-7 

4    i  56.553 

69.6 

+  3.9874+.  0249 

-.013 

+  .0136—   I 

.08           .28         .14 

901  S  470. 


6'/7     348°. 


907     12"  23"  173° 


CATALOGUE  OF  6 1 88  STARS  FOR  1900 


39 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

* 

|i/andiooA|i 

Prob.  Errors. 
SEp.  loop'  Sio 

Remarks. 

901 

0              /                 // 

-  3  15    1.44 

59-9 

/f                      It 

+  10.829-  .374 

n 
—  .IO 

+  .004       o 

.08      .29    .16 

32  Eridani  * 

902 

-2454  29.34 

81.9 

+  10.794-.  318 

-.07 

—  .017        o 

.08      .37     .13 

33  Eridani  r8 

9<>3 

-35    140.78 

76.0 

+  10.765—  .286 

—  -°5 

—  .018       o 

.10      .47     .19 

15  1  G  Eridani  i 

904 

+  34  47  18.37 

64.8 

+  10.759-  .478 

-.18 

—  .010       o 

.16      .71     .36 

90S 

-27  57  52.41 

75-4 

+  10.795-.  309 

-.06 

+  -035      o 

.16    1.16    .43 

906 

—  47  ii  16.07 

78.4 

+  10.696—  .234 

-.04 

—  .041       o 

•J3      -75    -27 

55  G  Horologii 

907 

-4039    4.32 

81.6 

+  10.692—  .263 

-.04 

—  .014      o 

.12         .64      .22 

153  G  Eridani  * 

908 

+  22  II  23.70 

69.9 

+  10.586—  .441 

-.14 

—  .114—    I 

.09         .43      .19 

32  Tauri 

909 

+  2253     6.80 

68.4 

+  10.674-.  443 

-•IS 

-.013       o 

.09         .50      .23 

33  Tauri 

910 

+  39  43  15.46 

73-4 

+  10.658—  .500 

—  .21 

—  .039      o 

.04         .23      .09 

2  471-    8M3  9"  10° 

911 

-39    3    4-82 

80.4 

+  10.633—  .270 

-.04 

-.015       o 

•13      -53    -20 

156  G  Eridani 

912 

-  13  53  i8-49 

69.1 

+  10.640-.  350 

-.08 

+  .OO2          O 

.11         .44      .21 

913 

+  35  3°  !2.6i 

82.4 

+  10.576-  .485 

-.19 

—  .012       o 

.04         .27      .09 

914 

+  80  25  25.36 

68.7 

+  IO-533-I-22i 

-1.92 

+  .005+  I 

.07         .32      .15 

49  H  Cephei  * 

915 

-  13  47  34-66 

69.9 

+  10.410-  .352 

-.08 

—  .112—     I 

.03         .14      .06 

916 

—  12  51   28.22 

93-3 

+  10.391-.  354 

-.08 

-  .023       o 

.14         .84      .20 

917 

+  22  55  11.26 

69.6 

+  10.372—  .448 

-.14 

—  .028       o 

.10      .30    .16 

1 

918 

+  22  55    6.44 

87.8 

+  10.380—  .448 

-.14 

—  .019      o 

.14         .73      .21 

JS479-     7     "7 

919 

+  17  54  42.88 

72.6 

+  10-359--436 

-•13 

-.037-  I 

.09         .44      .19 

920 

+  12   12  28.12 

75-9 

+  10-375-  -418 

—  .12 

—  .014      o 

.04         .25      .09 

3  1*4  to  4"2 

921 

+  1955      8.78 

69.7 

+  10.303  -.440 

-.14 

-.075       o 

.08         .33      .16 

922 

-4953  46.28 

84.9 

+  10.403—  .219 

-.04 

+  .032      o 

.12         .54      .l8 

923 

-24  17  59-48 

81.2 

+  10.354-  .324 

-.06 

+  .004       o 

.08         .36      .13 

$P  Eridani  r9 

924 

+  58  52  39.94 

54-o 

+  10.323—  .626 

-•35 

+  .007       o 

.13         .48      .30 

925 

+  9  43    3-I6 

70-5 

+  10.297-.  413 

—  .11 

—  .005       o 

.12         .71      .30 

OS  70.    12"  12"  227° 

926 

-    i  49  47-02 

69.6 

+  10.286-.  384 

-.09 

—  .004      o 

•09      -33    -16 

35  Eridani 

927 

+  35    i  55-88 

83-3 

+  8.931—  .426 

-.18 

-1.354-19 

.08      .54    .16 

928 

-  57  23  10.25 

84.0 

+  10.280—  .165 

-.04 

—  .002       o 

.11      .59    .19 

17  G  Reticuli 

929 

—  30  46  2O.II 

75-o 

+  10.273-.  304 

-.04 

.000      o 

.13      .60    .25 

163  G  Eridani 

930 

-61  4057-41 

78.0 

+  10.219—  .122 

^••°5 

—  .019      o 

.09      .43    .16 

931 

-   o  32  25.07 

84.6 

+     9.968-.  391 

-.09 

-.245-  I 

.08      .51    .15 

932 

+  5  42  42.80 

80.6 

+  IO.l8o—  .404 

—  .10 

—  .007      o 

.04      .29    .10 

933 

+  234950.31 

68.0 

+  10.124-  .455 

—  .14 

—  .022      o 

.09      .40    .19 

36  Tauri 

934 

+  59  34-39 

79-3 

+  IO.I25—  .404 

—  .10 

—  .016      o 

.12         .37      .17 

40  Tauri 

935 

+   7  55  13-83 

7!-5 

+  10.147—  .414 

—  .11 

+  .OI2—     I 

.15         .67      .30 

936 

+  21  4831.23 

69-3 

+  I0.052-.  451 

-•13 

—  .064—    I 

.05         .21      .IO 

37  Tauri  A  (A1) 

937 

+   2  33  19.03 

65.6 

+    9.988—  .400 

—  .10 

—  .116—    I 

.12         .42      .22 

938 

+  50    447-72 

59-i 

+  I0.052-.  565 

-•25 

-  -037      o 

.07         .21      .13 

939 

+  21  44  20.47 

69.4 

+    9-93°-  .453 

-•13 

-.138-     2 

.07         .28      .13 

39  Tauri  (A2) 

940 

—  62  26  18.32 

71.8 

+  10.087—  .112 

+  .O22          O 

.11         .49      .22 

941 

—  61  21  32.06 

74-3 

+  IO.I45-.  127 

-.04 

+  .097-     I 

.12         .53      .22 

942 

-13    4    1.08 

95-6 

+  I0.057-.  358 

-.07 

+  .OII         O 

.12      I.O4      .19 

-943 

+  27  1949-3° 

65.2 

+    9.93  I  -.469 

-•15 

-.057      o 

.11         .39      .21 

41  Tauri 

944 

+  28  43  51.43 

74-9 

+    9.964-  .472 

-.16 

+.003+  I 

•°9      -35    -IS 

945 

+  37  48  40.61 

68.4 

+  9-73I--5H 

-.19 

—  .224—     2 

.09      .32    .16 

* 

946 

-71  2638.56 

78.8 

+  9.970+.  046 

-.14 

+  .046      o 

.13         .58      .22 

63  G  Hydri 

947 

+  47  26  44.08 

76.7 

+  9-887--  555 

-•23 

-  .030      o 

.04         .20      .08 

48  Persei  c 

948 

-27  55  31.65 

84.6 

+  10.013-.  319 

-•05 

+  .103—     2 

.10      .54    .17 

174  G  Eridani 

949 

+  37  27  54-23 

79.6 

+  9-7  1  2-  .504 

-.19 

-.187+     I 

.08         .41      .15 

49  Persei 

950 

+  37  46  40.68 

64.2 

+  9-673-  -512 

-.19 

-.203-     2 

.07         .29      .15 

50  Persei 

914  S  460. 


i"  49°;  slow  binary. 


945  OS  531.     9M  2"  130°;  slow  binary. 


PRELIMINARY  GENERAL   CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  100  A  p 

Prob.  Errors. 
aEp.     100  n     oio 

M 

h    m         s 

5                          S 

S 

.  s 

//            „         „ 

951 

Pi  249 

6-3 

4    2  15.748 

75-9 

+  3-  43IO+  .OI28 

-.005 

+  .OOI2          O 

.08         .51       .19 

952 

Br562 

5-9 

3  20.324 

74-5 

+  3.4895+-  0136 

—  .006 

+  .0075       o 

.06            .30         .12 

953 

Pi  254 

6-3 

3  26.438 

69.9 

+  3-3457  +  .oii2 

—  .004 

+  .OOIO          0 

.10        .51       .23 

954 

L  1371 

7-3 

4    1.952 

78.9 

+  1.6898  +.0063 

—  .001 

+  .0055       o 

.l6            .87          .32 

955 

Br563 

5-6 

4  44-357 

68.3 

+  3.6470+.  0168 

-.008 

—  .0020       o 

.IO            .40         .20 

956 

Paris  4833 

5-6 

4  45-401 

95-6 

+  2.  7228+.  OO42 

+  .001 

+  .0007       o 

.13             .90         .18 

957 

Groomb  766 

5-6 

4  59-40- 

71.8 

+  13.459-+.  993- 

^.ooi-  +  6 

.07             .40         .17 

958 

Groomb  750 

6.8 

5    5-70- 

76.4 

+  I7.3i6-  +  i.797- 

+  .015-  +36 

.03             .21          .08 

959 

L  1376 

6.7 

5  27-75I 

90.0 

+  1.8593  +  .0047 

.000 

+  .007  1       o 

.15             .82          .22 

960 

Br567 

5-8 

5  29-783 

65-3 

+  2.9242  +  .  0057 

—  .001 

—  .0003       o 

.10            .45          .22 

961 

Br  566 

6.0 

6    0.776 

63-6 

+  3.  1900+.  0087 

—  .002 

+  .0095       o 

.14            .51          .27 

962 

L  1392 

6.8 

6  16.209 

76.2 

+  0.6399+.  0278 

-.015 

+  .0310+  7 

.14        .66      .27 

963 

o  Eridani 

4.2 

6  59.008 

76.9 

+  2.  9263  +  .0058 

—  .001 

+  .0006       o 

.03        .20      .07 

964 

L  1444 

7.0 

7    9.840 

84.7 

—  2.  9262  +  .  2l86 

-.118 

+  .0050—     2 

.10        .81      .23 

965 

Lai  7874 

6.0 

7  12.777 

97-6 

+  2.  6322  +.0037 

+  .OOI 

+  .0030      o 

.15          1.  12         .20 

966 

8  Horologii 

5-o 

7  28.527 

76.9 

+  2.0189+.  0038 

.000 

+  .0173      o 

•13        -57      -23 

967 

/«.  Persei 

4-3 

7  33-145 

76.0 

+  4.3900+  .0358 

-.023 

+  .0013       o 

.06        .26      .11 

968 

Groomb  774 

5-9 

7  59-23- 

72.0 

+  12.  794-  +  .861  • 

-.030-  +32 

.07        .38      .16 

969 

Pi  260 

5-7 

8    4.622 

71.0 

+  5.  2586+.  0691 

-.050 

+  .0036       o 

.11             .45          .21 

970 

Br565 

4.9 

8    4.840 

71.4 

+  4.0722  +  .  0263 

—  .016 

+  .0014      o 

.11             .33          .16 

971 

Brs7o 

5-5 

8    9.969 

63-4 

+  3.  2  266  +.0092 

-.003 

—  .0003       o 

.13             .50         .27 

972 

BrS7i 

5-° 

8  30.016 

83.2 

+  3.  2590+.  0096 

—  .004 

—  '  .0007       o 

.12             .39         .16 

973 

Groomb  795 

6.0 

8  51-495 

85.0 

+  4-94i6+.o55o 

-•039 

+  .0054      o 

.11             .60         .19 

974 

Pi  7 

5-3 

8  54.866 

70.0 

+  4-  662  2  +.0446 

-.030 

—  .0001       o 

.12            .48         .23 

975 

Pi  19 

5-3 

9     8.222 

75-4 

+3.  2763  +.0099 

—  .004 

+  .0005       o 

.18            .81         .33 

976 

L  1390 

7.0 

9  20.636 

81.8 

+  1.9069  +.0044 

.000 

+  .0028      o 

.18        .86      .30 

977 

Groomb  779 

5-7 

937-551 

67.8 

+  io.2i92  +  .4749 

-.485 

+  •0033-   3 

.08        .34      .16 

978 

Br574 

5-2 

9  38.207 

79.1 

+  2.  85  1  9  +  .0049 

.000 

—  .0008—    I 

•07         -34      -13 

979 

Li388 

7-5 

10    5.299 

84-3 

+  2.  3820+.  0030 

.000 

+  .0044       o 

.12             .78         .24 

980 

Brs72 

6-S 

10    5-567 

67.9 

+  3.40i7  +  .oii5 

—  .005 

+  .0084       o 

.09            .38         .18 

981 

/uTauri 

4.4 

10    6.203 

64.0 

+  3-2544+  -0094 

—  .004 

+  .0019       o 

.11             .33          .19 

982 

L  1394 

6.7 

10    9.937 

87.4 

+  2.  0564  +.0036 

.000 

+  .0009       o 

.14            .94         .25 

983 

Brisb  673 

7.0 

10  20.220 

87-7 

+  2.  1687  +  .  0032 

.000 

-^  .0004      o 

.12            .69         .19 

984 

Br578 

4-5 

10  40.160 

71.6 

+  2.76n  +  .ooi6 

—  .001 

—  .1484—  20 

.05             .22          .IO 

985 

•  Horologii 

3-8 

10  41.287 

79-8 

+  1.9865  +  .0035 

.000 

+  .0037-     2 

.IO            .40         .l6 

986 

Pi  18 

4-7 

10  43-279 

69.0 

+  4.4955  +  .0379 

-.028 

+  .0056      o 

.12             .40         .20 

987 

L  1402 

7-i 

II  5.366 

85.8 

+  1.8404  +.0046 

—  .001 

+  .OI52—     2 

.l8            .84         .27 

988 

Pi  10 

5-6 

II  15.698 

65.0 

+  5-  6064  +.083  2 

—  .067 

—  .0034       o 

.11             .52          .26 

989 

(oTauri 

S-o 

II  23.999 

64-9 

+  3-5I09+.OI34 

—  .007 

—  .0021       o 

.11             .44         .22 

990 

Groomb  803 

5-7 

II  42.717 

72.6 

+  4.4879+.  0373 

—  .026 

+  .007  1       o 

.16        .66      .30 

991 

BrS76 

5-7 

12  28.045 

77-3 

+  3-5454+-  0137 

—  .007 

+  .0075     ° 

.09      .30     .14 

992 

Groomb  809 

5-6 

12  36.797 

65-7 

+  4.5296+.  0386 

—  .027 

+  .0015       o 

.16        .68      .34 

993 

Pi  22 

5-8 

13      5-603 

79.6 

+  5.i9oi  +  .o62i 

-.050 

+  .0081-     2 

.08        .40      .15 

994 

a  Reticuli 

3-3 

13      8.144 

68.1 

+O-7O24+.O2I5 

—  .012 

+  .0054+  I 

.10        .39      .19 

995 

y  Doradus 

4-4 

13  24-354 

75-3 

+  1.5675  +  .0079 

-.003 

+  .0098  +     2 

.12             .48         .20 

996 

L  1425 

5-6 

13  29.296 

86.6 

+0.7835  +  .02H 

—  .Oil 

+  .0006+  3 

.18            .90         .28 

997 

Br  580 

5-6 

13  32.398 

72.2 

+  3-53I7  +  -oi34 

—  .007 

+  .0031       o 

.11             .45          .20 

998 

BrS8i 

5-6 

13  41.419 

69.4 

+  3-5465+.OI37 

-.007 

+  .0026      o 

.11             .48         .23 

999 

Br  579. 

5-2 

13  54.909 

85-7 

+  3.8863  +  .0206 

-.013 

-7.0025       o 

•07        -54      -15 

IOOO 

y  Tauri 

3-8 

4  14    6.082 

73-6 

+  3.  4097  +  .01  1  3 

—  .005 

+  .0081       o 

.03      .18     .07 

954  Dorados.     Magns.  discordant. 


972/8547. 


1"  358°. 


978SSI6.     9M6'.'4i5°°- 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

p'  and  zoo  A  p.' 

Prob.  Errors. 
SEp.  100  p.'  819 

Remarks. 

951 

0              /                 // 

+  17  421-15 

7!.8 

It                      tt 

+  9-835-    -44° 

—  .12 

—  .017        o 

.08         .47      .20 

952 

+  19  20  41.19 

74-4 

+  9.726-    .449 

-•13 

-.043-    I 

•0?         -31      -13 

43  Tauri  (a)1) 

953 

+  13    759-39 

67.2 

+  9-737-    -430 

—  .12 

—  .025      o 

.09         .46      .22 

954 

-4953  45-85 

76.6 

+  9.731-   .220 

-.04 

+.015-  I 

.12         .65      .25 

6  1  G  Horologii  * 

955 

+  26  13  11.98 

65.8 

+  9.625-    .470 

-.14 

-  .037      o 

.10         .38      .20 

44  Tauri  p 

956 

-  16  38  58.28 

93-i 

+  9.670-    .352 

-.07 

+  .009      o 

.14    1.  10    .23 

957 

+  83  33  52-36 

69.8 

+  9.657-1.725 

+  .014      o 

.08         .45      .20 

958 

+  85  17  28.72 

81.6 

+  9.668—  2.  22O 

+  .033-     2 

.04         .26      .08 

959 

-46    7  44.84 

83-4 

+  9.616-     .243 

-.04 

+  .009—     I 

.11         .55      .18 

62  G  Horologii 

960 

-   7  ii    6.68 

66.2 

+  9-595-   -378 

-.08 

—  .009      o 

.08         .35      .18 

37  Eridani 

961 

+  5  15  46.22 

58.9 

+  9-577-   -414 

—  .10 

+  .013-  I 

.12         .40      .24 

45  Tauri 

962 

-64  29  43.95 

79-3 

+  9.883—   .090 

-.06 

+  -338-   4 

•13         -63      -23 

24  G  Reticuli 

963 

-   7    553-88 

76.8 

+  9.571-   .380 

-.08 

+  .081       o 

.04         .22      .08 

38  Eridani  o1  Br  568 

964 

-7854    4.06 

83.8 

+  9.468+   .371 

-•55 

—  .008—    i 

.09         .64      .19 

5  G  Mensas 

965 

-2°3657-56 

96.8 

+  9-525-   -343 

-.07 

+  -053       o 

.l6      1.22      .23 

966 

-42  15  iS-99 

74-o 

+  9.517-   .266 

-.04 

+  .065—     2 

.11         .49      .21 

967 

+  48    9  19.00 

62.9 

+  9.419-   .569 

-•23 

—  .027      o 

.06         .21      .12 

05  73.    I2M  14"  349° 

968 

+  83    5  59.96 

76.0 

+  9.521-1.647 

+  .109+   4 

.08         .45      .17 

969 

+  61  35  56.04 

66.5 

+  9.403—    .682 

--36 

—  .002       o 

.10      .37    .19 

970 

+  40  13  49.96 

66.9 

+  9-379-    -528 

-.19 

—  .026      o 

.09         .30      .16 

52  Persei/ 

971 

+   7  27  37.56 

58.8 

+  9.402—    .420 

—  .10 

+  .003      o 

.13         .42      .25 

46  Tauri 

972 

+  9    036.91 

75-8 

+  9-338-    -424 

—  .10 

-  -035      o 

.11         .33      .16 

47  Tauri  * 

973 

+  573638.91 

82.9 

+  9-3J4~    -642 

-•31 

-.031-  I 

.11         .48      .17 

974 

+  53  21  38-51 

57-3 

+  9-337-    -605 

-.27 

—  .004       o 

.13         .39      .24 

975 

+  9  45  3°-66 

69.9 

+  9.283-    .427 

—  .10 

—  .041       o 

.l6         .64      .30 

976 

-4437  24-67 

75-7 

+  9.316-    .251 

-.04 

+  .009       o 

.14         .6l      .25 

64  G  Horologii 

977 

+  8035    8.52 

64.9 

+  9.268-1.325 

-1.86 

—  .018       o 

.08         .41      .20 

978 

—  10  30  16.40 

72-5 

+  9.128-    .372 

-.08 

--I57      o 

•07         -29      .13 

39  Eridani  A  * 

979 

-30  21   57.59 

82.2 

+  9.247-    .313 

-.04 

-.003-  I 

.13         .84      .27 

980 

+  15    9    i-73 

68.6 

+  9.224-    .445 

—  .11 

-.025-  I 

.08         .36      .I? 

48  Tauri 

981 

+  83831.07 

63.0 

+  9.229—    .426 

—  .10 

—  .020      o 

.10      .34    .19 

982 

—  40  36  42.60 

82.0 

+  9.250-    .270 

-.04 

+  .006       o 

•13      -77    -25 

983 

-37  16  56-99 

81.7 

+  9.219—    .284 

-.04 

—  .Oil          0 

.13         .64      .22 

196  G  Eridani 

984 

-   7  48  30.60 

72.2 

+  5-77°-    -342 

-.08 

-3-435  +  20 

.04         .21      .09 

40  Eridani  o2  * 

985 

-42  32  27.34 

78.2 

+  8.988-    .262 

-.04 

—  .215       o 

.08         .34      .14 

986 

+  50    258.80 

64.4 

+  9.147-    .587 

-•23 

-.054-  I 

.11         .40      .21 

61  Persei 

987 

-46  22  52.47 

79-7 

+  9.063-    .244 

-•°3 

—  .109—     2 

.14         .60      .23 

67  G  Horologii 

988 

+  64  53  47.40 

59-1 

+  9.159-    .731 

-•43 

.000      o 

.IO         .44      .24 

989 

+  20  19  56.71 

61.0 

+  9.089-    .459 

—  .12 

-  .059      o 

.10         .37      .20 

50  Tauri  («>2)  Br  575 

990 

+  49  48  18.04 

65.0 

+  9-073-    -58? 

-•23 

—  .051—     I 

•15      -55    -29 

991 

+  21    20      5.43 

73-5 

+  9.026—    .466 

—  .12 

-.039-     I 

.08      .29    .13 

51  Tauri 

992 

+  5O  40  40.78 

59-6 

+  9.056-    .593 

-.24 

+  .003       o 

•IS      -58    -33 

W  Persei 

993 

+  60  29  52.19 

76.0 

+  8.909-    .681 

-•33 

—  .107—    I 

.07      .32    .13 

994 

—  62  43  26.61 

73-o 

+  9.071-    .104 

-•05 

+.059-  I 

.08      .37    .16 

995 

-51  44  19.82 

77-o 

+  9.171—    .209 

-•03 

+  .180-  I 

.10      .43    .17 

996 

-62  26  33.59 

82.8 

+  9.081—    .106 

-•05 

+  .096      o 

.14      .69    .23 

26  G  Reticuli  * 

997 

+  20  54    1.17 

69.9 

+  8.934-    .464 

—  .12 

-  .047       o 

.10      .40    .19 

53  Tauri 

998 

+  21  31   54.71 

68.4 

+  8.923—    .466 

—  .12 

—  .046      o 

.11         .44      .21 

56  Tauri 

999 

+  34  19  31.00 

79-8 

+  8.9-37-    .510 

-.16 

—  .015       o 

.07         .38      .13 

54  Persei 

IOOO 

+  15  23  10.26 

71.7 

+  8.910—    .450 

—  .11 

—  .027—   I 

.03         .16      .07 

984  2  518.     9^2  82"  106°;  parallax  '.'17;  Compn.  is  itself  binary. 


996  h  3641.     nM8"267° 


PRELIMINARY   GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


Ho. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.  and  100  A  p. 

Prob.  Errors. 
a  Ep.      loop,     a  10 

M 

h    m         s 

s                s 

s 

s 

tt             it           tt 

I  001 

L  1411  m 

3-6 

4  14    6.610 

83.2 

+  2.  2688  +  .003  1 

.000 

+  .0047       o 

.08          .42        .14 

1002 

<f>  Tauri 

tl 

14  12.143 

61.6 

+  3.6836+.oi62 

—  .010 

—  .0014—     11 

.10           .39         .21 

1003 

Br577 

4-9 

14  19.082 

64-9 

+  4-3253  +  -°3l6 

-.023 

+  .0023      o 

.13            .42         .23 

IOO4 

Br585 

5-8 

14  19.749 

69-3 

+  3-3743  +  .0108 

-.005 

+  .0081       o 

.09           .36         .17 

1005 

e  Reticuli 

4-5 

H  45-395 

76.1 

+  1.0268  +  .  0146 

-.008 

-.0083-   3 

.12            .52          .22 

1006 

L  1430  m 

6.7 

14  50.282 

84-3 

+  0.8964+.  0181 

—  .010 

+  .0031       o 

.14            .78         .25 

1007 

Br  586 

5-4 

M  55-972 

68.4 

+  3-3979  +  -OIIi 

-.005 

+  .0077      o 

.13            .40        .21 

1008 

Pi  49 

6.0 

15  21.313 

91.2 

+  3.  1952  +  .  0084 

-.003 

—  .0009       o 

•13            -57         -17 

1009 

Pi  56 

7-3 

r53i-529 

83-9 

+  2.5070+.  0033 

.000 

+  .OOIO         0 

.12            .58         .19 

1010 

Pulkjj  640 

6.0 

IS  5I-837 

90.4 

+  2.  9088  +  .005  4 

—  .001 

+  .0016      o 

.13            JO         .18 

IOII 

L  1424 

5-3 

16    6.743 

75-3 

+  1.8959  +.0044 

—  .001 

+  .0046—    I 

.13            .70         .28 

1012 

Lai  8205 

5-5 

16  17.265 

94.0. 

+  2.61  70+.  0037 

.000 

+  .0031       o 

.09            .80         .15 

1013 

BrS89 

5-9 

16  25.341 

78.1 

+  3-3764+  -0106 

-.005 

+  .0078      o 

.12             .33          .16 

1014 

R  53 

6-3 

16  29.730 

.73-8 

+  3-5247  +  -OI3I 

-.007 

+  .0007       o 

.15            .70         .30 

1015 

X  Tauri 

5-5 

16  29.735 

71.0 

+  3.6450+.  0152 

—  .009 

+  .0019      o 

.08            .32          .15 

1016 

6  Reticuli 

6.4 

16  33.016 

74-i 

+  0.6598+.0230 

—  .012 

—  .0007+  I 

-14            .58         -25 

1017 

8  Tauri 

4.0 

17    9-995 

79-4 

+  3-4553  +  -0118 

—  .006 

+  .0077       o 

.03            .18         .O? 

1018 

Br  596 

5-9 

17  40.708 

70.2 

+  3.4380+.  01  15 

—  .006 

+  .0076      o 

.11             .42         .20 

1019 

Br  595 

6.4 

i?  57-934 

70.3 

+  3.6i24+.oi44 

-.008 

+  .0013      o 

.11             .44         .21 

IO2O 

Br  591 

5-9 

17  59.691 

73-6 

+  3-8842  +  .OI97 

-.013 

+  .0013      o 

.12            .54         .23 

IO2I 

Br  593 

6.1 

18    8.316 

74.1 

+  3.88i5  +  .oi95 

-.013 

+.0035-  I 

.13        .68      .27 

IO22 

Br  597 

S-o 

18  19.804 

60.0 

+  3.4545  +  .0116 

—  .006 

+  .0082-      o 

.09      .32     .18 

1023 

Br  598  m 

5-3 

18  24.622 

66.3 

+  3.  2666+.  0092 

—  .004 

—  .0019      o 

.14        .56      .28 

IO24 

£  Eridani 

5-4 

1  8  42.043 

85-9 

+  2.  985  1  +  .OO6O 

—  .002 

-  -0033      o 

.08         .46       .14 

1025 

Abo  105 

6-3 

19    7-357 

76.9 

+  3.49i7  +  .oi2i 

-.007 

+  .0075       o 

.09            .52          .20 

IO26 

/c1  Tauri 

4-5 

19  24-493 

74-7 

+  3.5701  +  .0134 

-.008 

+  .0073      o 

.09            .30         .14 

1027 

K2  Tauri 

5-5 

19  27.518 

59-o 

+  3.  5689+.  0133 

—  .008 

+  .0084       o 

.14            .48         .28 

1028 

L  1438 

6.6 

19  27.581 

.82.0 

+  2.i995  +  .oo33 

.000 

—  .0009       o 

.15            .8l          .27 

I02Q 

Br  601 

4-4 

19  42.142 

66.9 

+  3.  4661  +  .0117 

—  .006 

+  .0075      o 

.09            .30         .l6 

1030 

Pi  69 

5-4 

19  44.264 

79-9 

+  3.8i23  +  .oi77 

—  .012 

+  .0064—    I 

.IO            .50         .l8 

1031 

Br  603 

6.8 

1954.722 

71.9 

+  3.  4207  +  .01  10 

—  .006 

+  .0077       o 

.13           .45         .22 

1032 

L  1441 

4.0 

20  16.828 

83.2 

+  2.25I7  +  .0033 

.000 

+  .0045      o 

.07            .40        .13 

1033 

v  Tauri 

4-4 

2O  19.361 

66.1 

+  3.  5846+.  0135 

—  .008 

+  .0081       o 

.07            .38         .18 

1034 

Br  605 

4-7 

20  38.815 

60.7 

+  3.4i4i  +  .oio9 

—  .006 

+  .0079      o 

.12            .39        .23 

1035 

17  Reticuli 

5-3 

2O  48.407 

74-9 

+0.6383  +  .  0237 

—  .012 

+  .0125+   4 

.11            .48         .20 

1036 

TT  Tauri 

5-i 

20  57.329 

61.9 

+  3.  3861  +  .0105 

—  .006 

.0000      o 

•14        -39      -23 

1037 

Dpt  440  N  * 

8.1 

21  IO.54I 

73-4 

+  3.4941  +  .01  19 

—  .007 

+  .0062—    I 

.13        .62      .26 

1038 

L  1447 

6.9 

21   14-136 

81.6 

+  2.22OI  +  .OO3I 

.000 

-.0025-  I 

.14        .78      .26 

1039 

Br  606 

5-7 

21  18.546 

76-3 

+  3.5826+  .0135 

-.008 

+  .0005      o 

•io        .33      .15 

1040 

Pi  82 

6.0 

22    4-554 

86.2 

+  3-5567  +  -°i29 

-.008 

+  .0078       o 

.11        .52      .16 

1041 

L  1458 

6.7 

22  10.449 

82.4 

+  1.8820+.  0047 

—  .obi 

+  .0006+   I 

.18        .84      .29 

1042 

Br  610 

5-4 

22  43-322 

68.6 

+  3-4253  +  -0110 

—  .006 

+  .0006      o 

.11        .36      .18 

1043 

Br  611 

6.1 

22  43-4I7 

80.6 

+  3-3952  +  -QI04 

—  .006 

+  .0075       o 

.12            .38         .16 

1044 

e  Tauri 

3-6 

22  46.579 

75-o 

+  3.  4988  +  .01  19 

—  .007 

+  .0080       o 

.03            .15         .06 

1045 

6l  Tauri 

4.0 

22  51.646 

74-5 

+  3.4229+.oio8 

—  .006 

+  .0072       o 

.07            .26         .11 

1046 

P  Tauri 

3-5 

22  57.099 

68.0 

+  3.  4209+.  0108 

—  .006 

+  .0072       o 

.08           .28         .15 

1047 

Br  614 

5-2 

23   I3.987 

80.0 

+  3-3574+  -0099 

—  .006 

+  .0075      o 

.12            .38         .l6 

1048 

Br6iS 

5-7 

23   21.966 

67.0 

+  3.  0985  +  .0069 

—  .002 

+  .0015       o 

•13        -45       -23 

1049 

L  1496 

S-8 

23  41-865 

84.2 

+  o.82i8  +  .oi82 

—  .009 

—  .0065  +    I 

.16        .87       .28 

1050 

Br  607 

6.0 

4  24    6.425 

82.8 

+  4-735I  +  .0404 

-.038 

+  .0007       o 

•°5            -33          -1° 

looi.     204  G.  Erid.  X.  Innes. 
1019  S  534.     8«o  29"  290°. 


o'/5  330° 


1006  Gale.     8*1     t'.'o    339°. 
1021  02  81.     8*8    4'.'6    4»°. 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


43 


Ho. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

p.'  and  too  A  p.' 

Prob.  Errors. 
SEp.  loop.'  Sio 

Remarks. 

IOOI 

0             /                 /' 

-34      2  32.66 

75-5 

+   8.933-.  300 

// 

-.04 

// 
—  .003—    I 

//         H        it 
-08      .35    .15 

Br  590;  41  Eridani  v4* 

1002 

+  27      641.41 

54-3 

+   8.845  -.484 

-•13 

—  .084      o 

.07       .28    .17 

1003 

+  46   15  35.87 

55-o 

+   8.882-.  569 

—  .21 

-  .038       o 

.10         .32      .20 

53  Persei  d 

IOO4 

+  1347  38-3S 

65.6 

+   8.891  -.445 

—  .11 

-.028-  I 

.08         .33      .I? 

57  Tauri  h 

IOCS 

-5932  32.68 

78.4 

+   8.721-.  137 

-.04 

-.165+  I 

.11         .47      .l8 

IOO6 

-61  ii  39.05 

80.5 

+    8.901—  .121 

-.04 

+  .O22         O 

.11         .56      .20 

28  G  Reticuli  * 

IOO7 

+  14  51  20.34 

67.8 

+    8.839—  .449 

—  .11 

-•°33-     I 

.11         .40      .20 

58  Tauri 

1008 

+  5  53  32-29 

84-9 

+    8.788-.  422 

-.09 

-.051       o 

.12         .45      .16 

IO09 

-25  15  55.68 

84.6 

+    8.844—  .332 

-•05 

+  .019       o 

.IO         .51      .l6 

IOIO 

-   7  49  S3-24 

88.7 

+    8.80I-.  385 

-.07 

+  .OO2          O 

.11         .64      .l8 

IOII 

—  44  30  26.66 

74.8 

+    8-730-.  253 

-•°3 

—  .049—     I 

.12        .65      .26 

68  G  Horologii 

1012 

—  20  52  4I.l6 

9J-5 

+  8.760-.  347 

-.06 

—  .005      o 

.09        .92      .19 

212  G  Eridani 

1013 

+  13  50  26.59 

76.2 

+  8.724-  .448 

—  .10 

-.031-  I 

.11         .34     .16 

60  Tauri 

IOI4 

+  2035      5.52 

73-5 

+  8.744-.  466 

—  .12 

—  .005      o 

.12        .75      .30 

£87.     8f8    I'fg    169° 

1015 

+  25   2335-83 

62.6 

+  8.717-.  482 

-•'3 

-.032      o 

.06        .25      .13 

2528.  7rs  19"  25° 

1016 

-63  29  53-41 

74-6 

+  8.767—  .090 

-•°5 

+  .O22         0 

.11         .52      .21 

8"5     5"  4° 

ioiy 

+  17  18  28.81 

74-6 

+  8.663  -.458 

—  .11 

-•033-     I 

.04        .l8      .07 

AlsoS1 

1018 

+  16  32  37.63 

70.1 

+  8.624-  .457 

—  .11 

-.032-     I 

.IO         .42      .20 

63  Tauri 

1019 

+  24    4    4-7° 

63.0 

+  8.610—  .479 

—  .12 

-  .023      o 

.IO        .36      .20 

62  Tauri  * 

1  020 

+33  53  56-42 

69.9 

+  8.579-  .515 

-•«s 

-  -052      o 

.09         .42      .19 

55  Persei 

1021 

+  33  43  45-68 

70.4 

+  8.537-.  515 

-•15 

-.082      o 

.10        .48     .22 

56  Persei  * 

IO22 

+  17  12  44.32 

53-6 

+  8.563-  .459 

—  .11 

—  .041—     I 

.07        .29     .18 

64  Tauri  8s 

1023 

+  9  13  41-89 

57-9 

+  8.591-.  434 

—  .10 

—  .007       o 

.14        .51      .30 

66  Tauri  r  * 

1024 

-   3  58  35-69 

78.6 

+  8.523-.  397 

-.07 

—  .052       o 

.08        .43      .16 

1025 

+  18  48  42.86 

74-8 

+  8.479-  .465 

—  .11 

-.063-  I 

.08        .46     .18 

Br  3231 

1026 

+  22    3  54.08 

64.8 

+  8.471-.  476 

—  .12 

—  .048—   I 

.08        .23      .13 

1027 

+  21  58  16.43 

52-i 

+  8.455-  .476 

—  .12 

—  .060—   I 

.11        .38     .25 

1028 

-35  4639-27 

72.1 

+  8.524-.  294 

-.04 

+  .009      o 

.14        .71      .30 

218  G  Eridani 

1029 

+  1741  57.47 

63.8 

+  8.471—  .462 

—  .11 

—  .025—'  I 

.08        .28     .15 

68  Tauri  81 

1030 

+31  12  47.64 

76.5 

+  8.373-  .508 

--14 

—  .120—   I 

.09        .42      .17 

1031 

+  1542  44-59 

68.8 

+  8.450-  .456 

—  .10 

—  .029—    I 

.12        .46     .22 

70  Tauri 

1032 

-34  14  56.24 

77-6 

+  8.505  -.302 

-.04 

+•055-  I 

.08        .38     .15 

43  Eridani  d  (v5) 

1033 

+  22  35  12.43 

58.3 

+  8.395  -.478 

—  .12 

-.052-  I 

.07        .27      .16 

69  Tauri  (v1) 

1034 

+  15  23  28.31 

60.5 

+  8.394-  .456 

—  .10 

—  .027—   I 

.11         .40     .23 

71  Tauri 

1035 

-6337  25.12 

76.8 

+  8.585  -.090 

-•05 

+  .177-     2 

.10      .42    .17 

1036 

+  1429  15.40 

63.8 

+  8.361  -.452 

—  .IO 

-•035      o 

.11         .37      .20 

1037 

+  185341-81 

67.1 

+  8.242-.  467 

—  .11 

--I37-     I 

.IO        .42      .21 

2  546.   9*5   678   186° 

1038 

-34  58  59-69 

72-5 

+  8.264-  .297 

-.04 

—  .110         0 

.14         .69      .29 

220  G  Eridani  * 

1039 

+  22  46   I5.l6 

72-4 

+  8.350-  .478 

—  .12 

—  .018      o 

•09         .31      -15 

72  Tauri  (u2) 

1040 

+  21   23  48.68 

83.6 

+  8.262—  .476 

—  .11 

-.045-  I 

.IO        -47      .16 

1041 

-4423   23.58 

77-9 

+  8.360-  .253 

-•03 

+  .061      o 

.14         .64      .25 

iGCseli 

1042 

+  16    8    9.54 

69.1 

+  8.275-.  458 

—  .IO 

+  .019      o 

.11         .41      .20 

75  Tauri 

1043 

+  1431    6.67 

76.2 

+  8.235-.  456 

—  .IO 

—  .021  — 

.10      .35    .16 

76  Tauri 

1044 

+  185731.22 

71.4 

+  8.213-  .469 

—  .11 

-.038- 

.03         .I?      .07 

1045 

+  154424.79 

61.2 

+  8.217-.  459 

—  .IO 

-  .028- 

.O?         .23      .13 

1046 

+  153856.78 

59-3 

+  8.213-.  459 

—  .IO 

--025- 

.07         .24      .14 

1047 

+  124933.37 

76.6 

+  8.197-.  451 

—  .10 

—  .Ol8— 

.11         .34      .16 

79  Tauri  b 

1048 

1  +   19  32.81 

64.6 

+  8.177—  .416 

-.08 

—  .027      o 

•13         -52      -27 

44  Eridani 

1049 

—  61  27  52.29 

79-2 

+  8.193—  .112 

-.04 

+  .015+  I 

•13         ^3      -23 

31  G  Reticuli 

1050 

:  +53  41  36.46 

69-5 

+  8.140-  .634 

-•24 

—  .005      o 

.06         .23      .11 

i  Camelopardi  * 

1023  Hussey.     6f  o-6f  o  o'/3  26°. 


1038. 


43 


1050  2  550.     7*fi  10"  306°. 


44 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   1900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

|i  and  100  A  p. 

Prob.  Errors, 
a  Ep.     100  (i    a  10 

• 

h    m        s 

s               s 

s 

s 

//            //         // 

1051 

Br  617 

5-9 

4  24  26.415 

75-8 

+  3-4i67  +  .oio6 

—  .006 

+  .0073      o 

.09        .32      .14 

1052 

Pulktt  675 

5-7 

24  28.272 

95-8 

+  2.  7847  +  .0045 

.000 

+  .0005       o 

.14        .96      .20 

1053 

8  Mensae 

5-8 

24  43-822 

80.0 

—  4.1884+.  2796 

-.013 

+  .0051+13 

.08        .58      .19 

1054 

Br  619 

4-9 

24  50.129 

77-3 

+  3.4302  +  .oio7 

—  .006 

+  .0078       o 

.09        .45       .17 

1055 

Br  620 

5-6 

24  56.564 

79-o 

+  3.4183  +  .  0106 

—  .006 

+  .0073      o 

.10        .33      .14 

1056 

Br  621 

5-6 

24  59-Si2 

82.2 

+  3-3736+-OIOO 

—  .006 

+  .0074      o 

.12            .39         .16 

1057 

Br  622 

6.8 

25  26.627 

75-9 

+  3.401  7  +  .0103 

—  .006 

+  .0038      o 

.12            .32         .l6 

1058 

Br  623 

6-3 

26    8.967 

63-9 

+  3-4228  +  .OI05 

—  .006 

+  .0073      o 

.IO            .36         .20 

IOS9 

L  1483 

7-3 

26  19.010 

87-7 

+  2.  5446  +.0035 

.000 

—  .0011          0 

.13          I.  O2         .26 

1060 

Br6i6 

7-i 

26  19.242 

75-i 

+  4.  2  105  +  .025  1 

—  .022 

+  .0017—    I 

.11             .50         .21 

1061 

Br6i8 

6.4 

26  22.593 

78.8 

+  4.2I07  +  .0253 

—  .022 

+  .0006       o 

.08            .39         .15 

1062 

L  1523 

6.0 

26  36.138 

86.1 

+  0.6864  +.0204 

—  .010 

—  .0045+  I 

.18        .86      .27 

1063 

Br  624 

5-i 

26  45.678 

81.4 

+  3.  0668  +  .0065 

—  .002 

.0000      o 

•07        -36      -13 

1064 

PulkM  677 

6.0 

27     I-587 

89.0 

+  5-5942  +  .0694 

-.079 

—  .0018—    I 

.14            .78         .22 

1065 

L  I49S 

6.1 

27    1.771 

82.8 

+  2.  1849+.  0034 

.000 

+  .0005      o 

.15            .98         .30 

1066 

SCseli 

5-4 

27  46.308 

74-6 

+  1.835  1  +  .0048 

—  .001 

-.0003      o 

•12            -57          -23 

1067 

p  Tauri 

4.8 

28  10.342 

71.4 

+  3.4oo6+.oioo 

—  .006 

+  .0069      o 

.09            .26         .13 

1068 

Pi  in 

6.0 

28  22.443 

74-6 

+  3-7482  +  .OI54 

—  .012 

+  .0004      o 

.IO            .52          .21 

1069 

PulkM  686 

6.0 

28  49-J99 

90.2 

+  3.  1866  +  .0076 

—  .004 

—  .0013       o 

.11             .75          .19 

1070 

Br  6.3  r 

5-8 

29    2.323 

70.8 

+  2.  9228  +  .  0053 

—  .002 

+  .0007       o 

.13            .56         .26 

1071 

Br634 

5-6 

29  22.583 

75-7 

+  2,8870+.  0051 

—  .002 

—  .0023      o 

.11            .50        .20 

1072 

PulkM  691 

5-7 

29  24.454 

93-3 

+  2.87  1  1  +  .0048 

—  .001 

—  .0020—    I 

.12            .QO        .19 

1073 

L  1513 

4-7 

29  35-194 

81.1 

+  2.3529+.  0028 

.000 

—  .O08O—     2 

.09            .60         .20 

1074 

Br  626 

4-4 

29  45.610 

65.8 

+  4.1469+.  0229 

—  .021 

—  .0005      o 

•13         -44       -23 

1075 

v  Mensae 

6.0 

29  49.120 

75-7 

-5.5025  +  .  3826 

+  •103 

—  .0019+41 

.07            -54         .20 

1076 

Br  632 

4-4 

3°    9-535 

73-i 

+  3.  292  1  +  .0086 

-.005 

+  .0030      o 

.15            .57         .26 

1077 

a  Tauri 

0.9 

30  10.911 

66.2 

+  3.4385+.  0102 

—  .007 

+  .0048—    I 

.02            .11          .05 

1078 

Br63S 

6.7 

3i    2.405 

67-4 

+  2.  9889+.  0057 

—  .002 

—  .0009      o 

.14            .80         .37 

1079 

v  Eridani 

4.1 

31  19.306 

82.2 

+  2.9954+.  0058 

—  .002 

.0000       o 

.04            .27          .09 

1080 

u  Eridani 

3-8 

31  39-75° 

75-6 

+  2.  3305  +  .003  2 

.000 

—  .0046       o 

.08            .36         .15 

1081 

a  Doradus 

3-4 

31  50.114 

7i-3 

+  1.2926+.  0097 

—  004 

+  .0061       o 

.10        .39      .18 

1082 

Br  629 

5-4 

32    2.019 

65.8 

+  4-7  I09+.  0362 

—  .040 

+  .OOI2         0 

.12            .54        .27 

1083 

Br  628  m 

5-6 

32    2.503 

67.1 

+  4-74IO+.  0366 

—  .041 

+  .0075-  I 

.12            .44         .22 

1084 

Br  640 

5-5 

32    4-413 

72-5 

+  3.  0888  +.0065 

-.003 

—  .0008       o 

.13            .48         .22 

1085 

PulkH  697 

6.0 

32  21.821 

91.9 

+  3-5352  +  -on6 

-.008 

—  .0003      o 

.12            .8l         .19 

1086 

Br638 

6.1 

32  25.889 

61.4 

+  3-43O2  +  .OIOI 

—  .007 

+  .0062      o 

•13         -44      -25 

1087 

Br  639 

4-5 

S2  34-019 

74-8 

+  3-3501  +  .0091 

—  .006 

+  .0071       o 

.10        .44      .19 

1088 

Br  642 

5-5 

32  34.101 

74-9 

+  3.0174+.  0058 

—  .002 

+  .0030      o 

.12           .48         .21 

1089 

<rl  Tauri 

5-2 

33  26.503 

56-0 

+  3.4214+.  0099 

—  .007 

+  .O02I         O 

.14           .38         .24 

1090 

a3  Tauri 

4.9 

33  33-233 

61.6 

+  3-4278  +  .OIOO 

—  .007 

+  .0057      o 

.11             .34         .20 

1091 

Br  647 

4.0 

33  36-007 

75-5 

+  2.  7456+.  0040 

—  .001 

-.0054-  I 

.04            .24         .09 

1092 

Pi  146 

5-6 

33  41-138 

92.2 

+  3-2453  +  .0079 

-.005 

+  .0055      o 

.13            .58         .16 

1093 

Groomb  860 

5-9 

33  56-384 

73-o 

+  4-4624  +  .0289 

-.031 

+  .0040      o 

-IS        -54      -25 

1094 

L  1543 

6.9 

34    3-878 

91.0 

+  1.95  1  7  +  .0042 

—  .001 

+  .OO2O         O 

.13        .69      .18 

1095 

Pi  154 

5-i 

34  13-716 

76.7 

+  2.7976  +  .0044 

—  .001 

—  .0030      o 

.14        .75       .29 

1096 

L  1707 

7-i 

34  28.77- 

80.3 

-7.  246-  +.527- 

-.OH-+  7 

.07        .68      .21 

1097 

Br  646 

5-8 

34  29.316 

60.0 

+  3-3374+  -0088 

—  .006 

+  .0005      o 

.12            .42         .24 

1098 

Br  650 

5-8 

34  43-777 

71.7 

+  2.  7584+.  0040 

—  .001 

+  .0093—  I 

.12            .52          .23 

1099 

Pi  148 

5-9 

35    4-137 

75-i 

+  3-7498  +  .OI43 

—  .012 

+  -0033      o 

.11             .50         .20 

IIOO 

Pi  112 

6.r 

4  35  22.209 

83.2 

+  7.9950+.  1801 

-•330 

+  .0117—  12 

.04        .33      .10 

1051  2  554.     9*0  <  2";  binary,  extr.  close  in  1900. 
1073.     243  G  Eridani. 


1070  088i.     IOM  i'/s  50°. 
1076.     8M  69"  299°. 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


45 


No. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3dt 

H'  and  TOO  Ap. 

Prob.  Errors. 
SEp.  100  |i'  Sio 

Remarks. 

1051 

Of                 H 
+  15     25      I0.3S 

71.6 

/*           // 
+   8.107—  .460 

—  .10 

—  .012—     I 

It                   tt               It 

.08      .28    .13 

80  Tauri  * 

1052 

-13  16    7.24 

91.4 

+  8.115-.  375 

-.06 

—  .001       o 

.13      .88    .21 

228  G  Eridani 

1053 

—  80  26  53.60 

79-8 

+  8.i6o+.55s 

-•75 

+.065-  I 

.08      .51    .17 

J054 

+  15  5835-06 

71.6 

+  8.055-.  462 

—  .10 

-.032-  I 

.09      .39    .17 

1055 

+  15  28  27.81 

73-5 

+  8.048—  .460 

—  .10 

-.030-  I 

.09      .29    .14 

81  Tauri 

1056 

+  13  30  24.99 

78.7 

+  8.054-  .454 

—  .10 

—  .020—    I 

.11      .37    .16 

83  Tauri 

1057 

+  14  53   22.20 

75-9 

+   7.988-  .458 

—  .10 

-  .050      o 

.11      .33    .16 

84  Tauri 

1058 

+  I538   I3-I8 

63-7 

+  7.951-.  462 

—  .10 

-.031-     I 

.10      .38    .20 

85  Tauri 

1059 

-23   14  27.34 

87.4 

+   7-983-  -344 

-•°5 

+  .015       o 

.12      I.O2      .26 

230  G  Eridani 

1060 

+  42  49  12.05 

68.9 

+   7-895-  -567 

-•17 

-  -073      ° 

.10         .45      .21 

1061 

+  42  51    1.41 

75-9 

+   7.964-  .567 

-•17 

+  .001          O 

.O?        .30     .12 

57  Persei  m 

1062 

—  62  44  27.02 

80.9 

+   7-955-  -°95 

-•05 

+  .OIO+     I 

.14        -64     .23 

32  G  Reticuli 

1063 

-   o  15  30.38 

75-i 

+   7-93°-  -414 

-.07 

-.003      o 

.08        .37      .15 

45  Eridani 

1064 

+  64    3    9.18 

92.8 

+   7-897-  -753 

--36 

—  .015      o 

.13        .75      .18 

1065 

-35  52  13-36 

74.1 

+   7.923-.  296 

-.04 

+  .OI2         O 

•13      -75    -3° 

233  G  Eridani 

1066 

-45  10    6.32 

74-3 

+  7-839-  -250 

-•°3 

—  .012         O 

.10      .48    .20 

1067 

+  1438    3.26 

71.2 

+  7-793-  -461 

-.09 

—  .026—     I 

.09      .28    .14 

1068 

+  2845    7.62 

74-i 

+  7.781-.  507 

—  .12 

—  .022       o 

.11         .51      .21 

1069 

+   5  21  32.01 

87-5 

+  7.746-431 

-.08 

—  .021          0 

.11         .64      .l8 

1070 

-   65654.95 

72.8 

+  7-743-  -396 

-.06 

—  .006       o 

.11         .42      .19 

46  Eridani  * 

1071 

—  8  26  26.19 

72.9 

+  7-73i-  .391 

-.06 

+  .009      o 

-08         .34      .15 

47  Eridani 

1072 

-   9  10  34.63 

92.2 

+  7.  604-.  389 

-.06 

—  .115      o 

.12        .83      .19 

1073 

-2958    7.25 

77-6 

+  7-432-.  319 

-.04 

-.273+     I 

.09        .51      .19 

50  Eridani  v1  (v6)  * 

1074 

+  4i    3  33-72 

60.5 

+  7.667-.  561 

-.16 

—  .024      o 

.10         .37      .21 

58  Persei  e 

1075 

-81  48  24.81 

76.6 

+  7.824+.  738 

—  1.06 

+  .138       o 

.07         .47      .I? 

1076 

+  9  57  19.84 

65.8 

+   7.610-.  447 

-.09 

—  .049       o 

.11         .45      .23 

88  Tauri  d  * 

1077 

+  16  18  29.77 

64.2 

+   7.466—  .467 

-.09 

—  .191—    I 

.02         .11      .06 

Aldebaran 

1078 

-   3  49    0.88 

65-4 

+  7-555-  -4o6 

-.07 

-.032      o 

.12         .67      .32 

5571.    IIM  17"  259° 

1079 

-   3  33  24.82 

82.9 

+  7.563-.  408 

-.07 

—  .002       o 

.04         .26      .08 

1080 

-3046    1.04 

73-i 

+  7-533-  -3i8 

-.04 

-.004+  I 

.08         .36      .16 

Br645-    Also  v2  and  w7 

1081 

-55  i5    5-95 

73-8 

+  7.521-.  179 

-•03 

—  .002—    I 

.09         .37      .16 

1082 

+  52  52  49.18 

55-7 

+  7.489—  .640 

—  .22 

—  .018      o 

.12         .37      .23 

3  Camelopardi  * 

1083 

+  53  1634-18 

60.  i 

+  7.416-  .645 

—  .22 

—  .090—    I 

•99         .29      .17 

2  Camelopardi  * 

1084 

+  o  47  44.42 

74-2 

+  7.490-  .42  1 

-.07 

—  .014       o 

.IO         .42      .l8 

49  Eridani 

1085 

+  20  29    1.94 

91.1 

+  7.482-.  481 

—  .10 

+  .002          O 

.12         .73      .18 

1086 

+  154958-31 

64.7 

+  7.446—  .468 

-.09 

—  .029—     I 

.13         .51      .26 

89  Tauri 

1087 

+  12  1836.83 

69-4 

+    7-454-  -458 

-.09 

—  .010—     I 

•09      -35    -i7 

90  Tauri  c  (c1) 

1088 

-     2  40  24.19 

71.1 

+  7.414-  .412 

-.O? 

—  .050      o 

.10      .39    .18 

51  Eridani  c 

1089 

+  15  36  10.86 

63.2 

+  7-326-  .467 

-.09 

—  .067       o 

.13      .49    .26 

Br64i.     91  Tauri 

1090 

+  15  43  ii-56 

64.8 

+  7.363-.  468 

-.09 

—  .020—    I 

.IO         .41      .21 

Br643-     92  Tauri 

1091 

-  14  29  58.07 

76.8 

+  7-219-  -374 

-•°5 

-.161+  I 

.06      .30    .11 

53  Eridani  (/),  254  G 

1092 

+   7  40  20.22 

86.1 

+   7-372--  444 

-.08 

—  .001—    I 

.12         .46      .l6 

1093 

+  48    6  23.25 

72.0 

+   7.318-  .609 

-.18 

-  -034      o 

•13      -53    -24 

1094 

—  42    4  28.78 

85-2 

+   7.388-  .268 

-•°3 

+  .046      o 

.11      .49    .16 

8  G  Caeli 

1095 

-12  19  15.95 

75-8 

+   7.318-  .382 

-.06 

—  .on      o 

.12         .6l      .24 

1096 

-83    655.63 

80.0 

+   7-3I7  +  -982 

+  .009+     2 

.06         .65      .20 

12  GMensae 

1097 

+  12      0      3.64 

56.2 

+   7.  281-.  456 

-.09 

—  .026      o 

.11         .45      .27 

93  Tauri  (c2) 

1098 

-1433   11.04 

70.8 

+   7-159-  -379 

-•05 

—  .129—    I 

.11         .43      .20 

1099 

+  28  25   16.27 

73-i 

+   7.218-  .513 

—  .11 

—  .042       o 

.10      .45    .19 

1  1  00 

+  754533-39 

85.0 

+   7.105-1.092 

-.80 

-.131-     2 

.05         .39      .11 

Groomb  848 

1082  /3  1043.     I2M  4"  295°. 


1083  S  566.     8M  i'.'6  290°,  slow;  A  itself  double  -  ft  1295,  close  binary 


46 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

i  and  i  oo  A  n 

Prob.  Errors. 

aEp.      100  n      aio 

• 

h     m          s 

s                 s 

5 

s 

"             ft            if 

HOI 

R  Doradfis 

Var. 

4  35  3S-632 

88.5 

+  0.6873  4-  .01  8  1 

—  .OO9 

—  .0127—     2 

.18        1.05        .29 

1  102 

Groomb  866 

6.0 

35  45-423 

71.0 

+  4-5477  +  -0304 

-•034 

+  .0004      o 

.14            .45          .22 

H03 

Br  644 

5-4 

35  48.573 

62.0 

+  4.2467  +  .0234 

-.025 

+  .0041       o 

.15            .45          .26 

IIO4 

Pi  167 

5-8 

35  57-245 

82.8 

+  2.  4942  +  .0034 

.000 

—  .0049      o 

.10        .57       .18 

1105 

Br6S3 

4-5 

36    4.020 

69.4 

+  2.  623  2  +  .0036 

—  .001 

+  .OOI7—     I 

.08            .32         .15 

1106 

Pi  158 

7.8 

36  12.013 

81.1 

+  3.594I  +  .OH9 

—  .010 

—  .0016      o 

.11             .72         .24 

1107 

T-Tauri 

4-3 

36  I4-5I7 

77-9 

+  3-5965  +  -°"9 

—  .010 

+  .0004       o 

.03            .18         .07 

1108 

L  1558 

6.7 

36  35-635 

88.3 

+  1.4809+.  0074 

-.003 

—  .0004      o 

.16            .87          .25 

1109 

Br6s2 

6.4 

37  10.400 

66.0 

+  3.6273  +  .oi22 

—  .010 

+  .OOIO         O 

.13            .46         .24 

I  HO 

oCaeli 

4.6 

37  20.404 

69.4 

+  1-93  1  2  +  .0040 

—  .001 

-.0130-  I 

.10            .45          .20 

IIII 

ySCseli 

5-3 

38  31.290 

81.6 

+  2.  1189  +  .  0039 

.000 

+  .OO24+     2 

.IO            .46         .17 

III2 

Br  655' 

7-5 

38  46-853 

77.2 

+  2.8763  +  .0047 

—  .002 

+  .OO2I          O 

•15        -88      .33 

i"3 

Br  655° 

6.7 

3847-3" 

66.0 

+  2.8766+.  0047 

—  .002 

+  .0024       o 

.14        .45      .24 

1114 

Pi  169 

5-5 

38  53-238 

64-3 

+  3-32i7  +  -oo83 

—  .006 

+  .0066      o 

.12            .60         .30 

i"5 

Br  656 

6.0 

39  16.990 

68.1 

+  2.  8803  +  .0048 

—  .002 

—  .0003       o 

.13            .42         .22 

1116 

L  1564 

5-8 

39  17-384 

81.1 

+  2.3176+.  0031 

.000 

—  .0024      o 

.13            .72          .25 

1117 

Br  649 

5-4 

39  40.249 

79-8 

+  4.9810+.  0395 

-•053 

+  .0065-   3 

.04            .24         .09 

1118 

Lai  8951 

5-9 

39  43-035 

96-7 

+  2.6473+.  0037 

—  .001 

+  .0036       o 

.15          1.22          .22 

1119 

X  Pictoris 

5-4 

40  12.601 

85.0 

+  1.5341  +  .0068 

—  .002 

—  .0050+   I 

.13        .66      .21 

1  1  20 

Pi  179 

6.4 

40  26.387 

80.2 

+  3.4988  +  .oioi 

-.008 

+  .0046      o 

.09            -SI          .l8 

II2I 

L  1578 

6-3 

40  27.007 

86.7 

+  1.9713  +  .  0040 

—  .001 

+  .OOII         O 

.14            .82         .24 

1122 

PuIkM  721 

5-6 

40  28.009 

88.9 

+  3-333!  +  -0083 

—  .006 

+  .0045      o 

.11             .64         .l8 

"23 

ft  Eridani 

4.2 

40  30.106 

75-o 

+  2.  9981  +  .0054 

—  .002 

+  .0013      o 

.03            .21          .08 

1124 

Groomb  856 

5-5 

4i  37-337 

70.6 

+  11.046  1  +  .3968 

—  1.087 

—  .0010+  8 

•06            .33          .15 

1125 

LiS87 

7-i 

42    7-544 

85.8 

+  2.2i86+.oo33 

.000 

+  .OO22          0 

.11             .60         .l8 

1126 

Pi  197 

6-3 

42  26.186 

79-o 

+  2.3940+.  0033 

.000 

—  .0005       o 

.12            .52         .20 

1127 

L  1594 

6.2 

42  32-71? 

82.6 

+  2.0277  +  .0037 

—  .001 

-  .0039       o 

.11            .56         .19 

1128 

Pi  170 

5-9 

42  43-554 

64.6 

+  5.  5920+.  0562 

-.089 

+  .0083—     2 

.12            .39         .22 

II2Q 

Pulk»  723 

5-9 

42  48.182 

90.6 

+  3.8399+.  0144 

-.015 

+  .0017—   I 

.12            .70         .l8 

1130 

K  Doradus 

5-5 

42  50.519 

81.6 

+  0.8955  +  .OI4I 

-.007 

+  .0007+  I 

.13        .68      .23 

«3i 

Pi  190 

7.2 

42  50-736 

75-4 

+  3.5086+.  0094 

-.008 

+  .0131-     2 

.09            .42          .17 

1132 

Br  664 

5-8 

43    6.849 

65-4 

+  2.  693  1  +  .0040 

—  .001 

+  .0094+     I 

.12            .40         .21 

"33 

Br6s8 

5-2 

43  10-657 

69.2 

+  4-03i3  +  .oi77 

—  .020 

—  .0029      o 

.12            .48         .23 

"34 

Pi  184 

6.0 

43  38-079 

70.8 

+  4.  5002  +  .0265 

-•035 

—  .003  1  —   I 

.15             .62          .28 

"35 

SCceli 

6.7 

43  55-5" 

83.6 

+  2.3396+.  0034 

.000 

+  .0026+    I 

.12            .68         .21 

1136 

Br  660 

6.6 

44    0.789 

69.1 

+  3-4289  +  .009O 

-.007 

+  .0007       o 

.10        .33      .17 

"37 

Br  668 

6.2 

44    2.520 

69.1 

+  2.  6987  +  .0039 

—  .001 

+  .0008       o 

.15            .52         .26 

"38 

/«.  Mensae 

5-9 

44    3-667 

83.6 

—  O.6222  +  .O477 

-.013 

—  .OOO4+     2 

.12            .69         .22 

"39 

a  Camelopardi 

4-3 

44    6.329 

74-8 

+  5-9354+  -0676 

-.114 

+  .OOI2         0 

.03            .20         .08 

1140 

Br  663 

3-2 

44  24.670 

72.8 

+  3-2544+  -0071 

—  .005 

+  .0316      o 

.04            .21          .09 

1141 

Br667* 

4-5 

45    9-658 

69.2 

+  3-2663  +  .0074 

—  .006 

—  .0004      o 

.11            .40         .20 

1142 

L  1616 

6.9 

45  29.227 

82.2 

+  1.8442  +  .0045 

—  .001 

+  .0015       o 

.16            .82          .28 

"43 

Br  666 

5-2 

45  31-387 

76.7 

+  3.5062  +  .0097 

—  .009 

+  .0059       o 

•07        -33      -13 

"44 

Br  661 

7-2 

45  38-438 

76.8 

+  4.0143  +  .0167 

—  .019 

+  .0055       o 

.15        .66      .27 

"45 

Br673 

5-3 

45  41-158 

72.7 

|  +2.  7028+.  0039 

—  .001 

+  .0031       o 

.09        .40      .18 

1146 

Groomb  889 

5-8 

45  43.904 

87.0 

+  4.2310+.  0205 

—  .026 

+  .OOII         0 

.13        .48      .17 

"47 

Br  670 

3-8 

45  52.755 

77-6 

i  +3.i926+.oo67 

—  .004 

—  .0003       o 

.04        .26      .09 

1148 

Br  662 

S-o 

45  56-288 

69.2 

+  4.0101  +  .0166 

—  .019 

—  .OOI  I          O 

.12            .45          .22 

"49 

Br  672 

5-i 

46  52.480 

61.6 

+  3  -39°7  +  -0083 

-.007 

.0000       o 

.10        .44      .23 

"So 

Br  659 

5-8 

4  46  52.565 

78.8 

+  4.8910+.  0343 

-.051 

.0000       o 

.12            .42         .17 

to  6*JI7. 


1150 /S  1187. 


3"  246° 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


47 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H'  and  ioo  AH' 

Prob.  Errors. 
SEp.  loop'  Sio 

Remarks. 

HOI 

0              /                   // 

—  62  16  27.36 

86.7 

//                     II 

+   7.  130-  .095 

-.04 

-.087+     2 

//               tt           rt 
.15          .89      .26 

Li  567;  96  Doradus* 

1  102 

+  49  46  57.66 

67.9 

+   7.177—  .622 

-.19 

—  .027       o 

.14      47    .24 

1103 

+  43  10  28.78 

57-7 

+   7.  150-  .582 

-.16 

—  .O5O—     I 

.11      40    .24 

59  Persei 

1104 

-244040.31 

84.2 

+    7-207-.  342 

-.04 

+  .019+     I 

.09      49    .15 

258  G  Eridani 

HO5 

-1951  48.07 

74-5 

+   7.089-.  360 

-.04 

—  .090      o 

.08      .31    .14 

54  Eridani 

1106 

+  2245    1.14 

72.8 

+   7.  126-.  492 

—  .10 

—  .042       o 

.11      .56    .24 

IIO7 

+  22  45  54.31 

73-8 

+   7.  142-.  493 

—  .10 

—  .022       o 

.04      .19    .08 

1108 

-5152    7.36 

82.6 

+   7.  149-.  205 

-•03 

+  .013       o 

.13         .59     .21 

i  G  Pictoris 

1109 

+  23  5357-73 

63.0 

+   7.060-.  498 

—  .10 

—  .028       o 

.12         41      .23 

95  Tauri 

IIIO 

-42    3  16.84 

72.2 

+  6.985-.  265 

-•03 

-.089+     2 

.10      49    .21 

I2M  6"   112° 

IIII 

-37  20  23-06 

76.9 

+   7.  165-.  293 

-•°3 

+  .187      o 

.10      44    .18 

1112 

-   8  58  52.44 

74-9 

+  6.946-.  397 

-•05 

—  .010      o 

.11      .61    .24 

J55  Eridani 

i"3 

-   85859.67 

65.7 

+  6.930-.  397 

-•05 

—  .026      o 

.11      40    .21 

12590.    9"  316° 

1114 

+  I05735-32 

60.9 

+  6.934-  .458 

-.08 

—  .014—    I 

.10      .54    .28 

i"5 

-   8  41  25.28 

69.8 

+  6.903  -.397 

-•05 

—  .012       o 

.11      .39    .19 

56  Eridani 

1116 

-3057    4-95 

76.9 

+  6.858-.  320 

-.04 

-.057      o 

.12        .6l      .24 

12  G  Caeli 

1117 

+  563446.62 

71.7 

+  6.735-.  686 

-•23 

-.148-  I 

.05         .21      .IO 

4  Camelopardi 

1118 

—  18  51    8.04 

95-7 

+  6.888-.  366 

-.04 

+  .008      o 

.16      I.I5      .23 

264  G  Eridani 

1119 

-5040    9.85 

79-8 

+    6.870—  .212 

-•03 

+  .031+  I 

.11        .46     .18 

1  1  20 

+  i833  I3-83 

76.7 

+    6.757-483 

-.09 

-.063-  I 

.09      45    .18 

II2I 

-41  15    2.78 

80.4 

+    6.836-.  273 

-•03 

+  .017      o 

.12        .59      .21 

13  G  Caeli 

1122 

+  11  31  22.00 

84.2 

+    6.817—  .460 

-.08 

—  .001—    I 

.11    .51  .17 

1123 

—   3  26  16.50 

77-7 

+    6.805—  .414 

-.06 

—  .010      o 

.04      .24    .09 

1124 

+  81    i  41.24 

73-i 

+    6.754-1.520 

—  i.  60 

+  .031       o 

•08    .35  .15 

H25 

-34  ii  12.97 

77-4 

+    6.693  -.308 

-•03 

+  .012         0 

.12        .55      .22 

14  G  Cseli 

1126 

-28  16    5.75 

81.7 

+    6.671-.  332 

-.04 

+  .015       o 

.11         .51      .18 

268  G  Eridani 

1127 

-3932  13-02 

76.0 

+    6.627-.  28l 

-•03 

—  .020      o 

.11         .50     .20 

15  G  Caeli 

1128 

+  63  20    4.59 

66.3 

+    6.536-  .773* 

-•30 

—  .096—   I 

.13        42      .22 

II2Q 

+31  15  48.58 

88.9 

+    6.513-.  531 

—  .11 

-.113      o 

.12        .6l      .18 

H30 

-595458.08 

80.9 

+    6.659—  .126 

-.04 

+  .037       o 

.10      .55    .19 

"31 

+  183233.59 

69.8 

+    6.223-.  487 

-.09 

-•399-   2 

.08        .34     .16 

1132 

-17    7    2.91 

66.8 

+  6.771-.  375 

-•05 

+  .171-  I 

.10      .37    .19 

58  Eridani 

"33 

+  37  18  42.04 

65-9 

+  6.624-  .557 

-•*3 

+  .029      o 

.11       .45     .23 

i  Aurigae 

"34 

+  4834    4.81 

62.7 

+  6.505—  .622 

-.16 

—  .052       o 

•13        -51      -27 

"35 

-  30  1  1  59.80 

78.8 

+  6.630-  .326 

-.04 

+  .097      o 

.11        .50     .19 

1136 

+  15  43  46.99 

60.  i 

+  6.512-.  476 

-.08 

—  .014      o 

.11        46     .26 

96  Tauri 

"37 

-163023.59 

72.2 

+  6.567-.  375 

-•05 

+  .044      o 

.13      47    .22 

59  Eridani 

"38 

-7i    651.55 

81.8 

+  6.553  +  .083 

—  .11 

+  .031       o 

.10      .50    .17 

"39 

+  66  10  22.51 

72.2 

+  6.523-.  821 

-•34 

+  .005      o 

.03     .16  .07 

1140 

+   6  47  12.24 

71.4 

+  6.513-.  456 

-.07 

+  .020—   4 

.04      .20    .09 

i  Orionis  (ir1  or  IT*) 

1141 

+  8  43  43.07 

59-3 

+  6.398-  .454 

-.07 

-  .032       o 

.08     .26   .16 

2  Orionis  7T2 

1142 

—  44    9  18.26 

77.8 

+  6.430-  .258 

-•03 

+  .026      o 

.14    .64  .25 

17  G  Cseli 

"43 

+  18  40  11.01 

77-4 

+  6.364-488 

-.08 

—  .036-  I 

.06      .30    .11 

97  Tauri  i 

"44 

+  36  28  23.32 

71.9 

+  6.355-  .558 

—  .12 

-.036-  I 

.12         .60      .26 

"45 

-16  23  27.36 

74-6 

+  6.449-  .376 

-•05 

+  .062      o 

.09      43    .18 

60  Eridani 

1146 

+  42  25    2.80 

79-8 

+  6.377-.  588 

-.14 

—  .006      o 

.12      .39    .17 

"47 

,  +  5  26    2.77 

80.7 

+  6.365-444 

-.06 

—  .006      o 

.05      .30    .10 

3  Orionis  w*  or  w4 

1148 

+3632    2.58 

67.0 

+  6.344-  .557 

—  .12 

—  .022       o 

.09      .38    .18 

2  Aurigae 

"49 

+  14    5    2.54 

56-3 

+  6.229—472 

-.07 

-.059      o 

.10         .37      .22 

4  Orionis  o1 

"So 

+  55    538.59 

74-6 

+  6.281  -.680 

—  .20 

—  .007       o 

.11         .28      .15 

5  Camelopardi  * 

48 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   1900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  100  A  n 

Prob.  Errors. 
a  Ep.    loop    a  10 

M 

h    m          s 

s               s 

s 

s 

"                  //               n 

H5I 

L  1626 

6-3 

4  47    1-077 

81.6 

+  1.9493  +.0041 

—  .OOI 

—  .OOO4+    I 

.14        .66      .23 

1152 

L  1628 

6.1 

47  49.869 

78-3 

+  2.  l82I  +  .0033 

.OOO 

+  .0020      o 

.13        .66      .24 

"53 

<D  Eridani 

4-5 

47  58-837 

63-4 

+  2.9460+.  0049 

—  .002 

—  .0013       o 

.10           .36         .20 

"54 

Br67S 

5-8 

48    9.822 

72.8 

+  3.  1  263  +.0060 

—  .OO4 

+  .0019      o 

•09        -38      -17 

"55 

Groomb  892 

6.0 

48  11.538 

89.0 

+  4.7428  +  .0302 

--045 

+  .OOII         O 

.13        .51      .17 

"56 

Br66s 

7-i 

48  34-453 

67-3 

+  4.9345  +  .0344 

-•054 

—  .0001—    I 

.12            .42         .21 

"57 

i  Pictoris 

5-8 

48  41-454 

79-8 

+  1.3342  +  .0083 

—  .OO4 

—  .OI04+     2 

.16        .68      .26 

1158 

Brisb  811 

6-7 

48  42.601 

84.7 

+  1  -3345  +  -0083 

—  .OO4 

—  .OIO2+    2 

.18      .78     .27 

"59 

Br  680 

3-8 

49    2-5°° 

80.2 

+  3.  1228  +  .  0060 

—  .OO4 

—  .0002      o 

.04        .24      .08 

1160 

Br6;8 

5-4 

49  14-036 

82.9 

+  3-325i  +  -oo77 

—  .OO6 

—  .0008       o 

.11      .33    .14 

1161 

Br669 

4-5 

49  16.109 

68.9 

+  4-7973  +  -°310 

—  .048 

—  .0016      o 

.09      .27     .14 

1162 

Pi  236 

5-7 

49  23-309 

88.7 

+  3.  2416  +  .  0069 

-.005 

—  .OOI  I         0 

.12            .51         .16 

"63 

Br  679 

4.8 

49  23.436 

73-i 

+  3.3004+.  0072 

—  .OO6 

+  .0037-     I 

•°9        -33      -15 

1164 

Pi  191 

6-3 

49  38-59i 

75-o 

+  7.5561  +  .  1286 

-•303 

+  .0071+   4 

.11             .51          .21 

"65 

Paris  5639 

6.0 

^50    8.633 

96.6 

+  3.  41  2  1  +  .0083 

—  .OO7 

+  .OOIO         O 

.15      .78     .18 

1166 

Abo  115 

6.6 

^    50  10.089- 

>78.2 

+  3.6511  +  .0109 

—  .012 

—  .0004      o 

.IO           .60        .22 

1167 

i  Auriga 

2.8 

50  28.813 

76.1 

+  3.9016+.  0141 

-.017 

+  .0007      o 

.03            .18         .07 

1168 

Paris  5653 

6.0 

50  38-123 

95-8 

+  2.  6848  +  .003  7 

—  .OOI 

+  .0001       o 

.13            .82         .18 

1169 

Br  682 

4.4 

50  44.842 

64.8 

+  3  -3697  +  -0079 

—  .007 

—  .0056      o 

.10       .46      .23 

1170 

Paris  5658 

6.0 

50  49-I58 

94-3 

+  2.  6922  +  .0038 

—  .OOI 

—  .0002       o 

.12           .94        .19 

1171 

L  1648 

7.0 

51  24.678 

80.  i 

+  2.4543  +.0033 

—  .OOI 

+  .0017       o 

.11        .66      .23 

1172 

Br  689 

5-6 

51  28.650 

70-7 

+  2.  9526+.  0048 

-.003 

—  .0006      o 

.11            .50         .22 

"73 

L  1658 

6.1 

5i  33-872 

82.5 

+  2.0076+.  0037 

—  .OOI 

—  .0009       o 

.14        -68      .23 

"74 

Br  686 

5-9 

5i  35-7I5 

72.2 

+  3-4623  +  .0087 

-.008 

—  .0005      o 

.11            .48         .21 

"75 

Br  684 

6.1 

51  44-520 

72-9 

+  3.6360+.  0105 

—  .Oil 

+  .0004      o 

13            -58         -25 

1176 

Br  674 

6-5 

51  48.252 

75-2 

+  4.7679+.  0292 

-.047 

—  .0001       o 

.12            .50         .21 

"77 

Br  685 

5-9 

52    2.130 

70.8 

+  3-6677  +  .oio8 

—  .012 

+  .OO22         O 

.09            .42          .19 

1178 

Br  683 

5-i 

52  28.037 

63.6 

+  4.0664  +.0159 

—  .021 

+  .0042—    I 

•13        -45      -24 

"79 

Br  671 

6-5 

52  42.222 

71.7 

+  6.05  29  +.0604 

—  .129 

+  .0125-13 

.09      .39     .18 

1  1  80 

L  1679 

6.4 

53  H-Si? 

82.5 

+o.976o+.on8 

—  .006 

+  .0098+  I 

.16       .78      .27 

1181 

Br  695 

4-7 

53  21-887 

70.8 

+  3.  1070+.  0056 

—  .004 

—  .0002      o 

.10        .33      .16 

1182 

Br  687 

6.1 

53  25-782 

64.7 

+  4.ii72  +  .oi67 

-.023 

—  .OOI  I         O 

.13            .39         .22 

"83 

Br  688 

6.9 

53  29.564 

67.6 

+  4.1284+.  0169 

-.023 

+  .0003       o 

.12             .46         .23 

1184 

Br  694 

7.0 

53  59-951 

63.1 

+  3.  4409  +.0082 

-.008 

+  .0068       o 

.14         -44       -25 

"85 

£  Camelopardi 

4.2 

543i-2i7 

75-3 

+  5.3204+.  0407 

-.077 

+  .0003      o 

.04            .26         .IO 

1186 

Paris  5739 

5-8 

54  32.912 

96.8 

+  2.  6805  +  .0039 

—  .OOI 

—  .OII2+     I 

.14         1.  12         .20 

1187 

f  Aurigae 

Var. 

54  47-492 

72.0 

+  4.2976  +  .OI92 

—  .029 

+  .0005      o 

•04           -IS         -°7 

1188 

Br  697 

5-8 

55    6.457 

61.7 

+  2.8385  +  .0040 

—  .002 

+  .0019—   I 

.10           .39         .21 

1189 

Br  699 

S-o 

55  16.931 

82.2 

+  2.  7865  +  .0038 

—  .002 

+  .0031-  I 

.08           .45         .15 

1  190 

£  Aurigae 

3-9 

55  29.186 

72.8 

+  4-i866+.oi72 

-.025 

+  .OOIO         O 

.04            .22          .IO 

1191 

Radcl  1311 

6.8 

56  17.83- 

84.1 

+  20.727-  +  I.386- 

+  .030  --68 

.08            .46         .14 

1192 

>l>  Eridani 

4.9 

5635-412 

69.1 

+  2.  907  2  +  .0044 

—  .002 

.0000       o 

.10        .33       .17 

"93 

Pi  285 

5-i 

57    5-265 

82.5 

+  2.6oi8  +  .oo34 

—  .OOI 

+  .0027       o 

.13            .82          .26 

"94 

iTauri 

4.8 

57    7-049 

77.2 

+  3.  5825  +  .0092 

—  .010 

+  .0048      o 

.04            .l8         .07 

"95 

Br  691 

5-3 

57  26.758 

64.6 

+  5.i998  +  .036o 

-.071 

—  .0003       o 

.11             .40         .22 

1196 

Br  692 

6-5 

57  30-013 

73-o 

+  5.  2056+.  0360 

-.071 

+  .OOI2—     I 

.11             .45          .20 

"97 

rj  Mensas 

5-4 

58    3-454 

76.8 

—  I-7626+.O726 

+  .017 

+  .0023+  5 

.08            .58         .21 

1198 

Pi  289 

S-i 

58    5.809 

80.7 

+  2.4390+.  0030 

—  .OOI 

+  .0065—    I 

.08            .51          .17 

"99 

L  1700 

6.2 

58  14.794 

82.3 

+  1.9974+.  0037 

—  .OOI 

+  .0008       o 

.12            .52         .19 

1  200 

Br  704 

6.0 

4  58  3*-694 

75-4 

+  2.5316+.  0033 

—  .OOI 

+  .0046      o 

.12            .42         .19 

1151  h  3697. 
1169/8553. 


281°. 


1161  A  5.     SM  i"  293°  ;  S  610.     IIM  26"  238° 
1178  2  61 6     7?  7  s'.'9  354°. 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


49 


Ho. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'and  loo  AH' 

Prob.  Errors. 
S  Ep.    100  H'  S  10 

Remarks. 

"5i 

Of               It 

-41  29  35.88 

77-2 

//                       It 

+   6.338-.  272 

// 

-•03 

// 

+  .062      o 

//                    H               It 

.12         .52      .21 

18  G  Caeli  * 

1152 

-35    426.86 

70.4 

+   6.170-.  305 

-•03 

-  -039      o 

.13         .6l      .28 

19  G  Caeli 

"53 

-   5  37  "-47 

68.3 

+   6.215—  .411 

-.05 

+  .019      o 

.08         .32      .l6 

"54 

+     2   2O  34.62 

66.2 

+  6.161—  .436 

-.06 

—  .020      o 

.10      .37    .19 

5  Orionis 

"55 

+  52  42   24.76 

82.7 

+  6.i8i-.66i 

-.18 

+  .002       o 

.13         40      .17 

"56 

+  55  3948.87 

60.8 

+  6.115-.  687 

—  .20 

-.032      o 

.10         .34      .20 

6  Camelopardi 

"57 

-S3  37  54-39 

75-8 

+  6.22i-.i86 

-.03 

+  .084+    2 

.13         .51      .22 

6M7  12"  58° 

"58 

-53  37  47-8° 

78.9 

+  .  6.209—  >:[86 

-.03 

+  .073+     I 

.13         .58      .22 

8  G  Pictoris 

"59 

+   2  16  37.04 

80.4 

+  6.105-.  436 

-.06 

—  .003       o 

.04         .26      .09 

8  Orionis  w5 

1160 

+  "  15  45-24 

78.9 

+  6.116—464 

-.07 

+  .024      o 

.10      .32    .14 

6  Orionis  g 

1161 

+  53  35  3r-44 

58.0 

+  6.096—  .669 

-.19 

+  .007      o 

.07         .20      .13 

7  Camelopardi  * 

1162 

+   7  37    2-24 

82.5 

+  6.05  1  -.453 

-.07 

—  .028      o 

.11       44    .16 

Br.  3232 

1163 

+  95.930-37 

70.0 

+  5-945-  -462 

-.07 

-.134      o 

.08      .29    .14 

7  Orionis  ir* 

1164 

+  74    653.02 

74-i 

+  6.099—1.054 

-•59 

+  .041-  I 

.09      42     .18 

"65 

+  1452  48.43 

93-5 

+  5.996-477 

-.07 

—  .020      o 

.14      .71     .18 

1166 

+  24  25  56.85 

73-1 

+  5-983-  -Sio 

-.09 

-.031       o 

.10      47     .20 

1167 

+  33    o  27.84 

71.9 

+   5-96i-.  545 

—  .11 

—  .027      o 

.03      .19    .08 

1168 

-1654    4.78 

91.0 

+  5-975-  -376 

-•°5 

.000      o 

.14      .77    .20 

1169 

+  13  21  22.90 

58-7 

+  5.  905  -.47  1 

-.07 

—  .061+   I 

.09         .37      .21 

9  Orionis  o2  * 

1170 

-163445.70 

9T-3 

+  6.022-.377 

-.04 

+  .062      o 

.13         .92      .22 

1171 

-25  53  16.62 

79.6 

+   5-93°-  -344 

-•°3 

+  .O2O         O 

.12         .69      .24 

i  G  Leporis 

1172 

-   5  19  46.23 

68.8 

+   5.  909-  .414 

-•05 

+  .004      o 

.10      .38    .19 

62  Eridani  6 

"73 

-3947  21.83 

78.2 

+   5.911—  .282 

—  .02 

+  .013       o 

.12         .53      .21 

22  G  Caeli 

"74 

+  16  59  48.07 

68.6 

+   5.876-  .485 

-.07 

—  .019      o 

.10      49    .23 

"75 

+  2347  32.39 

72.2 

+   5.858-  .509 

-.08 

-.025       o 

.12         .60      .26 

99  Tauri 

1176 

+  53    o    6.25 

65-3 

+   5.866-  .667 

-.18 

—  .012      o 

.12        .35      .20 

8  Camelopardi 

"77 

+  2453  45-59 

69-5 

+   5-798-  -514 

-.09 

—  .060      o 

.08        .39     .18 

98  Tauri  k 

1178 

+  37  44  20.66 

57-4 

+   5-7i8-  .570 

—  .12 

—  .104—   I 

.IO         .38      .22 

4  Aurigae  (<«)  * 

"79 

+  66  40  58.34 

69.8 

+  5.455-  -849 

-•32 

-•347-   2 

.09         4O      .l8 

1180 

-5842  27.70 

80.0 

+  5.822—  .140 

-•°3 

+  .065-  I 

.14         .60      .23 

18  G  Doradus 

1181 

+   i  33  37-95 

74-7 

+  5.742-436 

-•°5 

-.005      o 

-09      -34    -15 

10  Orionis  «•' 

1182 

+  39  I435-78 

61.9 

+  5-744-  -577 

—  .F2 

+  .003      o 

.10         .39      .21 

5  Auriga;  * 

"83 

+  39  30  12.61 

65.1 

+  5-745-  -579 

—  .12 

+  .009      o 

.11         40      .21 

6  Auriga? 

1184 

+  1545  57-55 

65-5 

+  5.660—  .484 

-.07 

-.034-  I 

.12       47     .24 

101  Tauri 

"85 

+  60  17  46.19 

72.2 

+  5-637-  -746 

--•23 

-.013       o 

.04         .20      .09 

1186 

-1631  53.26 

92.0 

+  5.817-.  376 

-.04 

+  .169+     2 

.14      1.04      .23 

* 

1187 

+  43  40  31.37 

63-7 

+  5.614—  .604 

-•*3 

—  .013       o 

.04         .15      .08 

3Mo  to  41*5 

1188 

-10  24  34.71 

63.1 

+  5.471-400 

-.04 

-.130      o 

.09         .35      .19 

63  Eridani 

1189 

—  12  41      5.61 

76.1 

+  5.489-.  393 

-.04 

-  .097      o 

.08         .38      .15 

64  Eridani 

1190 

+  4055  47-52 

71.0 

+  5-539-  -589 

—  .12 

—  .030      o 

.05      .23    .10 

1191 

+  85  49  46.36 

86.0 

+  5-434-2.9I3 

-.067-   4 

.10      .55    .17 

1  192 

-    7  19  14.15 

71.1 

+  5487-410 

-.04 

+  .OIO         O 

.08      .30    .14 

"93 

—  20  ii  50.72 

80.7 

+  5.419-.  368 

-•03 

—  .015       o 

.11         .60      .21 

5  G  Leporis 

"94 

+  21   26  49.83 

73-° 

+  5-38S-  -506 

-.08 

-.047-  I 

.04         .19      .08 

"95 

+  58  49  57-56 

61.7 

+  5-397-  -732 

—  .21 

—  .007      o 

.10         .35      .20 

ii  Camelopardi 

1196 

+  585255-83 

66.0 

+  5-36i-.  733 

—  .21 

-  .038      o 

.11         .40     .21 

12  Camelopardi 

"97 

-75    526.46 

77-o 

+  5406+.  245 

-.19 

+  .054      o 

.07        .51      .18 

1198 

—  26  25    0.76 

79.1 

+  5-264-  -346 

-•°3 

-.085-  I 

.08        40     .15 

6  G  Leporis 

"99 

-3951  48.34 

77.8 

+  5-359-  -283 

—  .02 

+  .023      o 

.11      .49    .19 

25  G  Caeli 

1200 

—  22   56  17.41 

78.0 

+  5-336-  .358 

-•03 

+  .023-  I 

.12        .46     .IQ 

i  Leporis.     7  G 

1182  OS  92.     IOM  3"  254° 


1186  ft  314.    6?S  i"  327°;  8^5  54"  31°. 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  100  A  p 

Prob.  Errors, 
a  Ep.     100  |i    a  10 

M 

b    m        s 

a                s 

s 

s 

//                //              n 

I2OI 

Li69S 

6.2 

4  58  35-73° 

86.4 

+  2.2675+.  0033 

—  .001 

—  .0021       o 

.12           .93         .25 

I2O2 

Br  696 

5-o 

58  50.687 

66.5 

+  4.6894+.  0242 

-•045 

-.0016-   3 

.09           .27         .15 

1203 

Br  702 

4.8 

58  51-256 

71.1 

+  3-4255  +  -°°76 

-.008 

+  .0013      o 

.06           .28         .13 

I2O4 

i;  Aurigae 

3-2 

59  30-051 

72.6 

+  4.2005  +  .  0163 

—  .026 

+  .0027—    i 

.04           .18         .08 

1205 

L  1704 

5-8 

59  44-634 

86.4 

+  2.  4868  +  .003  2 

—  .001 

+  .0033      o 

.16         1.  06        .30 

1206 

Pi  254 

5-6 

4  59  45-43° 

75-° 

+  7-  5236+.  1069 

-•317 

+  .OO4O—     2 

.10        .45      .19 

1207 

L  1717 

5-6 

5    o  11.718 

83.6 

+  I.5659+.0056 

-.003 

—  .0056      o 

.14            .60         .21 

1208 

yCaeli 

4.6 

o  48.574 

78.6 

+  2.  1563  +  .0032 

—  .OOI 

+  .0097—     I 

.11             .51          .19 

I2OQ 

L  I7i3 

6-5 

o  51.868 

78.2 

+  2.  1392  +  .0034 

—  .OOI 

+  .0004      o 

.15            .75          .28 

1210 

Pi  307 

6.0 

i  12.587 

83.6 

+  2.4336+.  0030 

—  .OOI 

—  .0002      o 

.13            .58         .20 

I2II 

«  Leporis 

3-2 

i  I3-673 

76.4 

+  2.5386+.003I 

—  .OOI 

+  .0019       o 

.04            .24         .09 

1212 

Br  705 

5-i 

i  32.327 

64.2 

+  3-5433  +  .oo82 

—  .009 

+  .0380      o 

.07             .26         .14 

1213 

Br  712 

5-4 

i  48.972 

7°-5 

+  2.  9646  +.OO45 

-.003 

+  .0006      o 

.13            .44         .21 

1214 

Br  708 

5-4 

i  53.282 

67.2 

+3.  5476+.  0084 

—  .010 

—  .0030      o 

.10        .40      .20 

1215 

Br  707 

6.1 

i  56.627 

63-7 

+3.5843  +.0087 

—  .012 

+  .0004      o 

.11             .39         .21 

1216 

Br  706 

5-7 

2     0.945 

66.0 

+  3.  65  2  2  +  .0094 

—  .OI2 

+  .OOO2         O 

.10            .40         .21 

1217 

Br  709 

6-5 

2      9-52O 

65-9 

+  3.2858+.  0058 

—  .OO6 

+  .0004—     2 

.11             .38         .20 

1218 

L  1728 

5-° 

2  22.485 

80.2 

+  1.5488+.  0056 

-.003 

+  .0035      o 

.12            .70         .24 

1219 

Br  711  m 

5-5 

2  26.191 

61.3 

+  3.  2645  +  .0061 

—  .006 

+  .0017       o 

.14            .42          .25 

I22O 

ft  Eridani 

2.8 

2  56.OOI 

79-7 

+  2.9482  +  .0043 

-.003 

^.0059      o 

.04            .20         .07 

1221 

Br  710 

6.8 

2  56.256 

65.8 

+  3-5372  +  -°o82 

—  .OIO 

+  .0003      o 

.14            .36         .21 

1222 

Pi  294 

5-8 

3  16.017 

7i-3 

+  4.4604+.  0188 

-•°35 

+  .0064—     2 

•13            -SO         -23 

1223 

Br  718 

5-9 

3  32-795 

69.8 

+  2.  8718+.  OO4O 

—  .002 

.0000      o 

.13             .63         .29 

1224 

Br7i7 

5-4 

3  46.272 

68.9 

+  2.  9706  +.OO44 

-.003 

+  .0023       o 

.14            .54         .26 

1225 

£  Doradus 

4.8 

3  47-75° 

82.6 

+  I.O233  +  .OIOI 

-.005 

—  .0054+     2 

.13        .66      .22 

1226 

Br  716 

5-7 

3  49-546 

81.4 

+  3.  2990+.  0062 

—  .006 

+  .0050      o 

.12            .38         .l6 

1227 

Br  714 

S-o 

3  58-483 

62.4 

+  3-43I5  +  .0072 

—  .008 

+  .0003       o 

.10            .39         .21 

1228 

/3  Mensae 

5-4 

4    0.408 

85-5 

-0.7945  +  .0398 

—  .001 

—  .0022+    3 

•14        -75      -23 

1229 

Br  703 

6.7 

4  12.735 

58-4 

+  5.  5  668  +  .0402 

-.097 

—  .0044       o 

.12             .40         .24 

1230 

Pi  301 

8.1 

4  I5-796 

78.2 

+  4.455i  +  .oi89 

-•035 

+  .0006      o 

.l8            .70         .29 

1231 

X  Eridani 

4-3 

4  21.624 

70.9 

+  2.  8698  +.0040 

—  .002 

+  .OOO2         O 

.OS            .28         .12 

1232 

L  1737 

7.0 

5  17.464 

88.8 

+  1.92  1  8  +.0044 

—  .OOI 

-.0077+  3 

.12            .72          .19 

"33 

Groomb  928 

S-8 

5  52-939 

79-5 

+  7.3668  +.0900 

-.301 

+  .0034-     2 

.10        .48      .18 

"34 

Pi  i 

5-4 

5  56-853 

71-3 

+  3-4432  +  .007I 

-.009 

+  .OO02          O 

.14            .62          .28 

1235 

Pi  269 

5-2 

6    4.166 

79-6 

+  9.8035  +  .2023 

-.871 

—  .O28l  +  24 

.04            .26         .09 

1236 

/n  Aurigae 

4-9 

6  35-041 

83.8 

+4.1002  +  .0133 

—  .024 

-.0015-     I 

.04            .30         .09 

1237 

Br  724 

6.1 

6  42.828 

77-9 

+  2.7983  +  .0038 

—  .002 

+  .0018      o 

.13            .69         .26 

1238 

L  1772 

5-4 

6  47.004 

87-4 

+0.4619+.  0152 

—  .006 

+  .OOII—     2 

.20            .87          .28 

"39 

t  Leporis 

4.6 

7  37.961 

69-3 

+  2.7979+.  0036 

—  .002 

+  .OO2O         O 

.12            .45         .22 

T24O 

p  Orionis 

4.6 

8    3.726 

66.2 

+  3.  1346+.  0050 

-.005 

—  .OOOI         O 

.12            .33         .19 

1241 

/*  Leporis 

3-2 

8  26.363 

86.7 

+  2.  6936  +  .0033 

—  .OOI 

+  .0028       o 

.09            .52          .15 

1242 

K  Leporis  S  * 

4.6 

8  36.788 

70.9 

+  2.  7689+.  0036 

—  .002 

—  .OOI2         O 

•15            -51          -25 

"43 

Br  729 

6.6 

8  44-803 

72.8 

+  2.8833  +  .0039 

-.003 

+  .0003      o 

.IO            .40         .l8 

1244 

Br723 

5-2 

8  53.618 

54-6 

+  3.9040+.  OI08 

—  .018 

—  .OOIO         0 

.15            .40         .27 

1245 

Br  721 

7-2 

9    2-695 

65-9 

+  4.4374+.oi7i 

-•035 

+  .0009       o 

.13            .46         .24 

1246 

a  Aurigae 

o.o 

9  18.036 

63-8 

+  4.4259+.ois6 

-•°35 

+  .0082—   5 

.03            .12          .06 

1247 

Pulk«  804 

6.0 

925.117 

92.0 

+  3.i869+.oo52 

-.005 

—  .0005      o 

.12            .70         .l8 

1248 

Br  726 

6.4 

9  26.965 

82.3 

+  3.  6034  +.0080 

—  .012 

—  .0003      o 

.13            .34         .16 

1249 

PulkM  801 

6.0 

9  41.788 

98.2 

+  3-959i  +  -°"3 

—  .020 

+  .0004      o 

.14      i.oo      .18 

1250 

ft  Orionis 

o.o 

5    9  43-92I 

66.9 

+  2.8817  +  .  0039 

-.003 

+  .0001      o 

.02        .11      .05 

1202/31046.     i3M  6"  92°. 
12190298.     7M  i"  172°,  binary. 


1218  ij'Pictoris. 
1232  h  3728.     IOM 


260°. 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'and  100  A  n 

Prob.  Errors. 
8  Ep.    100  n'  8  10 

Remarks. 

1201 

O           /               It 

-31  55    0.47 

82.2 

//                      // 

+  5.364-    .321 

// 

-•°3 

it 
+  .057       o 

//          it       a 

.12         .93      .29 

26  G  Caeli 

I2O2 

+  51  27  53.42 

60.3 

+  5.109—    .662 

-•iS 

-.177      o 

.08         .22      .13 

9  Aurigae  * 

1203 

+  iS  iS  53-43 

71.7 

+  5.249-    .484 

-.06 

-  .036      o 

.05         .28      .12 

n  Orionis 

1204 

+  4i    5  57-36 

67.8 

+  5-I56-    -594 

—  .11 

-.075      o 

.04         .l8      .08 

1205 

-2431  36.71 

84.2 

+  5-203-    .353 

-•°3 

—  .007       o 

•i?    i-SS    -43 

10  G  Leporis 

I2O6 

+  7349    3-54 

68.6 

+  5.177—  1.062 

-.49 

-.032-  I 

.08      .30    .15 

I2O7 

-49  J7  34-39 

82.4 

+  5.185—      .222 

—  .02 

+  .013+  I 

.11      .51    .18 

10  G  Pictoris  ijl 

1208 

-35  37  n-47 

68.3 

+  5.069-      .307 

—  .02 

-.051-  I 

•i2      -S3    -25 

9*6  3"  310° 

I20Q 

-35  5039-75 

70.2 

+  5-I42-    -3°4 

—  .02 

+  .027       o 

.13      .64    .29 

1210 

—  26  17  14.12 

82.1 

+  5.019-  .345 

-•°3 

—  .067      o 

.11      .47    .17 

13  G  Leporis 

I2II 

—  22  30  18.93 

76-9 

+  5.018—   .360 

-•03 

—  .067      o 

.05      .25    .10 

1212 

+  183038.85 

60.8 

+  5-°7°-    -5°7 

-.07 

+  .011-   5 

.06         .22      .12 

104  Tauri  m 

1213 

—   4  47  21.00 

71.7 

+  5.043-    .420 

-.04 

+  .008      o 

.11         .43      .20 

66  Eridani 

1214 

+  20  17  10.98 

62.8 

+  4-979-    -5°2 

-.07 

—  .050      o 

.09         .42      .22 

106  Tauri  I 

1215 

+  21  34  20.47 

55-2 

+  5.008-    .508 

-.07 

—  .016      o 

.10         .34      .21 

105  Tauri 

1216 

+  24    758.84 

63-9 

+  5.007-    .518 

-.08 

—  .on       o 

.09        .45      .22 

103  Tauri 

1217 

+   9  20  59.20 

58.0 

+  4.625—    .466 

-.06 

-.381       o 

.10         .34      .20 

13  Orionis 

1218 

-4942  47.86 

80.  i 

+  4-995-    -221 

—  .02 

+  .007       o 

.11         .64      .22 

n  G  Centauri  if  * 

I2IQ 

+    8  22      5.48 

65-4 

+  4.921-    .463 

-.06 

—  .061       o 

.12         .47      .24 

14  Orionis  i  * 

I22O 

-  5  12  56.44 

80.0 

+  4.861-    .418 

-.04 

-.079+  I 

.04         .20      .07 

1221 

+  J943  47-91 

67.8 

+  4.922—    .502 

-.07 

—  .018       o 

•13       -45     -23 

107  Tauri 

1222 

+  46  50  18.38 

65-4 

+  4.755-    .633 

—  .12 

-•157-  I 

.11         .39      .21 

I223 

-   8  47  41.85 

68.8 

+  4.874-    .408 

-.04 

—  .014      o 

.10      .50    .23 

S649.     8?S2i"  75° 

1224 

-   435    9-88 

71.2 

+  4.892—    .422 

-.04 

+  .023       o 

.12         .46      .22 

68  Eridani 

1225 

-573633-34 

82.4 

+  4.972-    .146 

-•°3 

+  .105+  I 

.11         .56      .19 

1226 

+  9  42    3.81 

78.0 

+  4-858-    .469 

-.06 

—  .006—    I 

.11         .36      .l6 

1  6  Orionis  h 

1227 

+  15  28  10.71 

62.8 

+  4.842-    .487 

-.06 

—  .010      o 

.08         .34      .18 

15  Orionis 

1228 

—  71  27    2.70 

87-3 

+  4.896+   .no 

—  .10 

+  -047      o 

.11         .77      .21 

1229 

+  62  34    5.12 

53-4 

+4.845-  .789 

—  .22 

+.013+  I 

.11         .33      .22 

14  Camelopardi 

1230 

+  46  49    1.35 

7i-5 

+4.835-  .633 

—  .12 

+  .008      o 

.17         .56      .28 

1231 

-   8  52  56.39 

74-i 

+  4.811-  .408 

-.04 

—  .008       o 

.06        .29     .12 

1232 

—  41  20  58.52 

84-3 

+  5.026-  .273 

—  .02 

+  .286+  I 

.IO        .56      .18 

2  G  Columbas  * 

"33 

+  73    911.56 

78.2 

+  4.654-1.047 

-•43 

—  .036      o 

.10      .34    .15 

1234 

+  15  55  19.27 

68.1 

+  4.686—    .490 

-•°5 

+  .002       o 

-i2      -53    -25 

1235 

+  79    659.13 

77-6 

+4.829-1.388 

-.84 

+  .155+   4 

.04      .23    .09 

19  H  Camelopardi  * 

1236 

+  38  21   57.88 

75-7 

+4.556-  .583 

-.09 

-  .074      o 

.06      .27    .11 

"37 

-II   58  25.14 

76-5 

+  4.663-  .399 

-.04 

+  .044       o 

.11      .50    .20 

1238 

-63  31   32.48 

84.8 

+4.566-  .068 

-.04 

-  .047      o 

.15      .71    .23 

21  G  Doradus 

1239 

—  ii  59  21.19 

62.5 

+4.527-  .399 

-.04 

—  .014      o 

.10      .33    .19 

2655.    IoMi2"337° 

1240 

+   2  443J-56 

62.2 

+4.489-  .447 

-.04 

—  .015       o 

.10      .30    .17 

5  654.     8?3  7"  63° 

1241 

—  16  19  25.68 

79.8 

+  4-444-    -385 

-•°3 

—  .028       o 

.08        .30     .12 

1242 

-13    334-97 

65.8 

+  4-445-    -395 

-.04 

—  .012       o 

.11         .37      .20 

S66i.     7"52"6359° 

1243 

-   8  15  56.68 

69.9 

+  4.436-    .412 

-.04 

—  .010      o 

.09         .37      .I? 

1244 

+  32  34  18.71 

Si-8 

+  4.442-    .557 

-.08 

+  .009       o 

.10      .37    .24 

14  Aurigae  * 

1245 

+  46    18  7.08 

64.1 

+  4.412-    .633 

—  .10 

—  .008       o 

.11      .45    -23 

12  Aurigae 

1246 

+  45  53  46.95 

63.1 

+  3.970-    .633 

—  .10 

—  .429-  I 

.02        .11      .06 

Capella 

1247 

+   5    2  25-25 

89.9 

+  4.404-    .455 

-•05 

+  .015      o 

.12        .6l      .17 

1248 

+  22   10  13.58 

78.4 

+  4-371-    -5M 

-.06 

-.015       o 

.11         .36     .16 

108  Tauri 

1249 

+  34  ii  51.67 

94-2 

+  4.394-    .565 

-.08 

+  .029       o 

.13        .84     .19 

1250 

—   8  19    1.67 

67.0 

+  4.361-    .412 

-.04 

—  .001      o 

.02         .12      .06 

Rigel  * 

"35  s  634-     8"°  J4"  16°.  'arge  rel.  mot.  1244  2  653.     7^4  14' 

1250  S  668.     8M  9''s  202°;  the  comp.  itself  is  a  close  double. 


225°;  IIM  n"  350° 


PRELIMINARY   GENERAL   CATALOGUE   OF   STARS   FOR    1900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  100  A  H- 

Prob.  Errors, 
a  Ep.     IOO  p.    a  10 

M 

h     m          s 

s                s 

S 

s 

//                   //               // 

1251 

£  Mensae 

6.4 

5  10  14.490 

79-6 

—  6.  9962  +  .2850 

+  .834 

-.0144+  7 

.07        .63      .20 

1252 

Br734 

5-8 

10  30.730 

72.8 

+  3-33°8+  .0059 

-.007 

—  .0007      o 

.13        .68      .28 

1253 

Pi  8 

6.4 

10  50.230 

73-8 

+  5-i657  +  .0276 

—  .072 

+  .0028      o 

.12            .51          .22 

1254 

L  1773 

6.0 

10  56.595 

90.1 

+  2.  12I4+.  0032 

—  .001 

+  .OOII         O 

.13            .72          .20 

1255 

Arg  N  5680 

6.0 

II   2.381 

89.8 

+  5.5900+.  0355 

—  .101 

+  .0037      o 

.11            .90         .21 

1256 

Groomb  953 

6.0 

II    7.162 

93-i 

+  4.  28ll  +  .  0144 

-.030 

+  .0041       o 

.12            .54         .15 

1257 

P>  35 

5-2 

II  23.644 

85.0 

+  2.  405  5  +  .0030 

—  .001 

+  .OOO4y         O 

.15        .68      .22 

1258 

Br733 

4-7 

II  36.885 

76.2 

+3-9352  +.0103 

—  .019 

+  .0055-     2 

.13      .62     .25 

1259 

X  Aurigae 

4.8 

12      6.333 

73-9 

+  4.2I59+.OH7 

—  .026 

+  .0461—   6 

.06        .26      .11 

1260 

Br737 

5-5 

12   25.164 

87.4 

+  3-9438  +  -0104 

—  .019 

+  .OOI2         O 

.11         .56       .17 

1261 

L  1786 

7-4 

12  43-67l 

84.1 

+  2.2O06+.0030 

—  .001 

—  .OOI  I         O 

.15       .82      .26 

1262 

T  Orionis 

3-7 

12  45.030 

74-4 

+  2.9H7  +  .0039 

—  .003 

—  .OOI  I         O 

.04            .21          .09 

1263 

Br  743 

5-9 

13      4.623 

81.0 

+  2.  7540+  .0034 

—  .002 

—  .OOI  I          O 

.10         .44       .16 

1264 

Pi  311 

7.0 

13      6.705 

73-7 

+  9-3472  +  -I472 

--75I 

+  .0064—  II 

.09         .46       .20 

1265 

Pulka,  813 

5-6 

13  J3-297 

91.1 

+  4.2096  +  .  0130 

—  .027 

+  .0003—    I 

.11      .75     .18 

1266 

Br  741 

5-2 

13  16.088 

61.9 

+  3.6030+.  0074 

—  .012 

+  .OO2I—     I 

.10        .44      .23 

1267 

Pi  37 

6.4 

13  19.650 

67.2 

+  3.  5468+.  0071 

—  .on 

—  .0027      o 

.13      .48     .24 

1268 

Br  739 

5-2 

13  25-395 

83.1 

+  3-9507  +  -0104 

—  .019 

+  .0003       o 

.11        .45      .16 

1269 

6  Doradus 

4.8 

13  49.926 

79-2 

—  0.0586+.  O2IO 

—  .004 

—  .OOIO+     2 

.11            .62         .22 

1270 

o  Columbae 

5-o 

13  52-673 

84.6 

+  2.I622+.0024 

—  .001 

+  .0065-   3 

.07            .46         .14 

1271 

Br  744 

5-5 

13  58.208 

53-6 

+  3.  1283  +  .0046 

-.005 

—  .0010      o 

.14           .48         .30 

1272 

Pi  317 

6-5 

14    1.749 

78.0 

+  9.1783  +  .  1393 

-•705 

+  .0045—     2 

.09           .48         .18 

1273 

Pi  41 

6-5 

1442.510 

80.6 

+  3.  7630+.  0085 

-.015 

—  .0019      o 

.IO            .64         .22 

1274 

p  Aurigae 

5-3 

14  43-659 

74-4 

+  4-2424+.OI30 

—  .028 

+  .0023      o 

.10        .38      .16 

1275 

Pi  42 

5-8 

14  50.991 

77.0 

+  3.  8131  +  .0089 

-.017 

+  .0002      o 

.14            .56         .23 

1276 

Br73S 

5-3 

H  53-947 

77.1 

+  5.  1  288  +.0246 

—  .070 

+•0033-  I 

.09            .45          .17 

1277 

X  Leporis 

4-3 

14  58.089 

60.4 

+  2.  7630+.  0034 

—  .002 

.0000      o 

.09            .32          .18 

1278 

v  Leporis 

5-5 

15  20.600 

72-5 

+  2.  7834+.  0034 

—  .002 

—  .0002      o 

.IO            .46         .20 

1279 

Pi  59 

5-9 

15  24.528 

84.1 

+  2.  3898+.  OO29 

—  .001 

—  .0008       o 

.11             .60         .IQ 

1280 

Radcl  1458 

5-7 

15  48.868 

91.8 

+  4.2095  +  .0125 

-.028 

—  .0003      o 

.11        .66      .16 

1281 

Lai  10063 

4.8 

16  10.741 

95-7 

+  2.  5607  +  .0030 

—  .001 

+  .OOIO         0 

.12            .92          .l8 

1282 

PulkM  824 

6.0 

16  16.888 

87.8 

+  3.  2654+.  005  1 

—  .006 

+  .0009       o 

.12            .57         .18 

1283 

Br  750 

5-8 

16  25.577 

76-9 

+  3.0598  +  .0042 

—  .004 

—  .0007       o 

.09           .39         .16 

1284 

Br7Si 

4-7 

16  39.401 

74-4 

+  3.0610+.  0042 

—  .004 

—  .0003      o 

.08           .34         .15 

1285 

L  1809 

6.8 

16  44-567 

83-5 

+  2.  1591  +  .0030 

—  .001 

—  .0009      o 

.14        .86      .27 

1286 

Pi  61 

7-9 

16  50.069 

76-9 

+  3.  1526+.  0046 

-.005 

+  .0006      o 

.10        .40      .16 

1287 

£  Pictoris 

5-7 

16  54-893 

82.8 

+  1.4681  +  .0059 

-.003 

+  .0006+  3 

.13        .69      .23 

1288 

Br  746 

6.7 

17    2.831 

77-o 

+  3-7973  +  -0084 

—  .016 

+  .0019      o 

.11        .32      .15 

1289 

Br753 

5-2 

17  34-618 

62.9 

+3-I5I5  +  -°045 

-.005 

.0000      o 

.10            .40         .21 

1290 

L  1810 

5-3 

17  39.962 

81.2 

+  2.  4616+.  0029 

—  .001 

—  .0018       o 

.13            .57          .21 

1291 

Br7S2 

6-3 

17  51.172 

80.2 

+  3.  4624  +.0060 

—  .010 

—  .0018      o 

•13        -33      -16 

1292 

o-  Aurigae 

5-3 

i7  51-309 

73-4 

+  4.0729+.  0106 

—  .024 

—  .0001       o 

.10        .36      .16 

1293 

Pi  63 

6.1 

18  11.793 

71.0 

+  3.8627  +  .0088 

-.018 

-*  .0009       o 

.13        .57      .26 

1294 

Br  754 

5-i 

18  35.260 

73-o 

+  3.4987  +  .0061 

—  .010 

+  .0171       o 

.10        .45      .19 

1295 

Paris  6223 

5-8 

18  35-485 

98.6 

+  3.o656  +  .oo4i 

—  .004 

—  .0010      o 

.12         1.  06         .17 

1296 

L  1826 

8-3 

18  35-991 

95-4 

+  2.0241  +  .0033 

—  .001 

+  .0007       o 

.15         1.32         .24 

1297 

Br  766 

5-3 

18  55.604 

71.7 

+  2.  7439  +  .  0032 

—  .002 

.0000       o 

.13            .57         .26 

1298 

L  1836 

7-2 

19    1.719 

91.8 

+  1.4124  +  .  0055 

-.003 

+  .0037       o 

•T5        -93      -23 

1299 

Br  764 

4.2 

19    7.762 

78-3 

+  2.8885  +  .0035 

-.003 

-.0013       o 

.12             .57          .21 

1300 

Br  762 

5-3 

5  19  23.821 

77-4 

+  3.  0494  +.0042 

—  .004 

—  .0003  +    I 

.11         .48       .19 

1258  OS  103.    IIM  4"  55°. 


1281  h  3750. 


3"  280°. 


CATALOGUE  OF   6 1 88   STARS   FOR    1 900 


53 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

P/and  100  A  p' 

Prob.  Errors. 
8  Ep.    loop.'  S  10 

Remarks. 

1251 

01          n 
-82  36  14-68 

79.1 

//          // 
+  4.330+   .996 

-.87 

// 

+  .OI2+    2 

//               it           tr 
.06          .53       .17 

1252 

+  11  13  43-57 

68.9 

+  4.286—    .476 

-•05 

—  .009      o 

.13          .49      -24 

18  Orionis 

«53 

+  S8    034-34 

66.5 

+  4.240-    .738 

-.16 

—  .027      o 

.12        .43      .22 

15  Camelopardi 

1254 

-36    5  29.50 

81.5 

+  4-259-    -3°4 

—  .02 

+  .OOI         O 

.13        .50     .19 

6  G  Columbae 

1255 

+  62  32  48.07 

93-8 

+  4.229-    .799 

—  .20 

—  .O2I         0 

.11         .94     .19 

1256 

+  42  41    0.86 

88.8 

+  4.224—    .612 

—  .10 

—  .019—     I 

.12         .42      .15 

I2S7 

-27    3  19.04 

77-4 

+  4.196-    .345 

—  .02 

—  .024      o 

.13         .54      .22 

28  G  Leporis 

1258 

+  33  16    1.55 

72.7 

+  4.025-    .564 

-.08 

—  .176—     I 

.IO         .47      .20 

1  6  Auriga  * 

1259 

+  40    o  36.91 

68.0 

+  3-503-    -6l° 

-.09 

-.656-  7 

.05         .20      .IO 

- 

1260 

+  33383I-38 

79-9 

+  4.089-    .565 

-.08 

-  -043      o 

.10      .38    .15 

1261 

-33  3849-84 

73-2 

+  4.089—    .316 

—  .02 

—  .017      o 

.13         .6l      .26 

10  G  Columbae 

1262 

-   657    8.78 

79-5 

+  4.097-    .417 

-•03 

—  .007      o 

.05         .24      .09 

/3  188.     i2M  4"  51° 

1263 

-I33734-7I 

79-4 

+  4.026-    .394 

-•03 

—  .050      o 

.IO         .46      .17 

1264 

+  78  1230.38 

71.1 

+3-995-1  -337 

--65 

-.078-  I 

.09         .38      .17 

1265 

+  40  58  59.60 

90.4 

+  3.999-    .603 

-.08 

—  .064      o 

.11         .67      .I? 

1266 

+  21  5934-95 

60.6 

+3-970-    .516 

-.06 

—  .089      o 

.08         .36      .19 

109  Tauri  n 

1267 

+  20    i  47.28 

62.1 

+  4.025-    .508 

-.06 

—  .029      o 

.09        .39     .21 

S  680.     IOM  9"  202° 

1268 

+  33  51  12.65 

77-3 

+  4.030—    .566 

-.07 

—  .016      o 

.11         .34     .16 

19  Aurigae 

1269 

-67  17  52.15 

80.4 

+  4.059+   .007 

-•OS 

+  .048      o 

.IO        .50     .l8 

1270 

-345934.98 

79.8 

+3.661-   .311 

—  .02 

-.346-  I 

.08        .45      .16 

1271 

+  2  29  31.44 

53-9 

+3.942-    .448 

-.04 

-.057      o 

.14        .49     .31 

21  Orionis 

1272 

+  77  53    7-32 

76-3 

+3.981-1.314 

-.61 

-.013-  I 

.08        .35      .14 

"73 

+  27  51  20.89 

76.9 

+3.906-   .539 

-.07 

-  .030      o 

.09        .51      .19 

1274 

+  41  42  17.17 

69.4 

+3.897-    .608 

-.08 

-  -037      o 

.10      .33    .17 

1275 

+  2928    6.18 

77-9 

+3-925-   -547 

-.07 

+  .OOI         O 

.13         .57      .22 

1276 

+  57  2649.99 

68.7 

+3-859-   -736 

-.14 

—  .061       o 

.09         .27      .14 

1  6  Camelopardi 

1277 

-13  1647.58 

65-5 

+3-91?-    -397 

-•03 

+  .003       o 

.08         .31      .l6 

1278 

-12  25    5.46 

74-8 

+3.888-   .400 

-•03 

+  .007      o 

.09         .42      ,l8 

1279 

—  27  28  17.89 

83.0 

+3.862-   .343 

—  .02 

—  .014      o 

.10      .45    .16 

12  G  Columbae 

1280 

+  4055  51.19 

90.4 

+3.843-    .604 

-.08 

+  .OO2         O 

.IO        .6l      .l6 

1281 

—  21   2O  25.06 

95-o 

+3.824-    .368 

—  .02 

+  .014      o 

.13    i.oi    .20 

38  G  Leporis  * 

1282 

+  8  19  46.11 

84.8 

+3.801-    .469 

-.04 

.000      o 

.12        .51      .18 

1283 

-   o  30  56.49 

80.0 

+3.792-    .439 

-•°3 

+  .003       o 

.08        .39     .14 

1284 

-  o  28  52.13 

73-2 

+3.766-    .440 

-•°3 

-.003       o 

.08        .32      .14 

22  Orionis  o 

1285 

-3447  56.88 

72.1 

+3-755-   -311 

—  .02 

—  .006      o 

.14        .65      .28 

13  G  Columbse 

1286 

+  3  28  25.08 

72-5 

+3-755-    -453 

-.04 

+  .OO2          O 

.09        .36     .16 

1287 

—  50  42  48.66 

81.0 

+3-963-    -212 

—  .02 

+  .216      o 

.11         .58      .20 

1288 

+  28  50  29.20 

76-3 

+3-705-   -546 

-.06 

-  .030      o 

.11         .34      .16 

22  Aurigae 

1289 

+  3  26  53.18 

56.8 

+3.683-   .453 

-.04 

—  .007      o 

.08        .34     .20 

23  Orionis  m  * 

1290 

-24  52  12.34 

75-i 

+  3-665~   -354 

—  .02 

—  .017      o 

.12        .52      .22 

41  G  Leporis  * 

1291 

+  16  36  17.22 

79-2 

+3-637-   -498 

-.04 

—  .029      o 

.12        .36     .l6 

no  Tauri 

1292 

+  37  17  30.42 

73-1 

+3-639-   -585 

-.07 

—  .027      o 

.10      .39    .18 

0888.     i2M9"i67° 

1293 

+  3i    2  59-99 

68.4 

+3-627-   -555 

-.06 

—  .009      o 

.12        .51      .24 

1294 

+  17  17  25.98 

67.7 

+3-593-   -506 

-•05 

—  .OIO—     2 

.O?        .29      .14 

in  Tauri 

1295 

-   o  15  13.92 

98.4 

+  3.601-   .441 

-•03 

—  .001      o 

.11        .99     .16 

1296 

-3835    7.40 

92.6 

+3.621—   .292 

—  .02 

+  .019      o 

.15      I.  II      .24 

1297 

—  14    i  16.19 

72-3 

+3-578-   .395 

-•°3 

+  .004      o 

.11         .47      .21 

8  Leporis 

1298 

—  51  40  20.81 

87-5 

+  3.588-  .205 

—  .02 

+  .023      o 

.12        .65      .19 

1299 

-   7  53  59-55 

75-4 

+3.518-   .416 

-•03 

-  .038      o 

.IO        .43      .l8 

29  Orionis  « 

1300 

-  °  59  H-31 

77.0 

+3.658-  .439 

-•°3 

+  .125      o 

.09        .39     .16 

27  Orionis  p 

1289  S  696.     7^3  32"  28°. 


1290  h  3752.     if 4  3'.'3  'OS0- 


54 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.  and  100  A  pi 

Prob.  Errors. 
aEp.     loop     a  10 

M 

h    m         s 

3                      S 

s 

s 

tt                         It                    H 

1301 

?!  Orionis  m 

3-4 

5  19  26.941 

72.4 

+  3.0I56+.  0039 

—  .004 

+  .0004      o 

.05            .27         .12 

1302 

Br763 

4-9 

19  33-344 

70.8 

+  3-  1  1  19+.  0042 

—  .004 

—  .0007       o 

.l6            .69         .32 

1303 

y  Orionis 

1.6 

19  46-034 

77-4 

+  3.  2  162  +  .0046 

—  .006 

—  .0005       o 

.03            .l6         .06 

1304 

/3  Tauri 

1.6 

19  58.202 

65-7 

+  3.7900+.  0076 

—  .016 

+  .OO24—     2 

.02            .11          .06 

1305 

Paris  6246 

5-9 

20      1.313 

95-3 

+  2.  6687  +  .003  I 

—  .002 

+  .0004      o 

.12          I.  II          .21 

1306 

L  1834 

5-8 

20      5.963 

87.8 

+  1.9762  +  .0033 

—  .001 

—  .0006       o 

.15            .82          .24 

1307 

Br  760 

6-5 

20  18.937 

78.0 

+  3.4648  +.0058 

—  .010 

—  .0003      o 

.12            .36         .I? 

1308 

Li853 

6-5 

20  31.580 

77.0 

+  I.IO25+.  OO72 

—  .004 

—  .0009+   I 

.14            .69         .27 

1309 

Br  745 

5-9 

20  43-426 

83.8 

+  5.6558  +  .0298 

—  .110 

+  .0008       o 

.06           .42         .12 

1310 

PulkM  844 

5-9 

20  44-237 

93-2 

+  3.8364+.  0081 

—  .017 

.0000       o 

.12             .69         .17 

13" 

<f>  Aurigae 

5-4 

21       1.092 

76.1 

+  3-9743  +  -0090 

—  .020 

+  .0004       o 

.09            .33          .14 

1312 

Br  7721 

7-7 

21    17.261 

85.5 

+  3.  1378  +  .  0042 

—  .005 

—  .0001       o 

.14            .46         .l8 

1313 

Br767 

5-6 

21    20.033 

68.5 

+  3-4979  +  .0059 

—  .010 

+  .0006      o 

.11             .62         .28 

1314 

t/»  Orionis 

4-7 

21  35-832 

62.0 

+  3-I4i3  +  -°°42 

-.005 

—  .0003       o 

•io        -33      -19 

1315 

Br  768 

4-9 

21   37.707 

67-3 

+  3.6016+.  0064 

—  .012 

+  .0008      o 

.09        .38      .18 

1316 

Lai  10254 

6.0 

21  39.822 

95-4 

+  2.  5987  +  .0030 

—  .OOI 

+  .0003       o 

.14            .96         .20 

1317 

L  1850 

6.1 

21   56.890 

87-4 

+  1.7840+.  0037 

—  .OO2 

—  .0014       o 

.13            .72          .21 

1318 

Br  771 

5-7 

22      O.82I 

76-7 

+  3:4457  +  -°°55 

—  .009 

+  .0006       o 

.11             .32          .15 

1319 

Pi  102 

6.8 

22   25.284 

72-5 

+  2.7938  +  .003  1 

-.003 

+  .0014       o 

.14            .64         .28 

1320 

Br  775  «./. 

6.0 

23      7.197 

58.6 

+  3.6909+.  0067 

—  .014 

+  .0015       o 

.12            .34         .21 

1321 

L  1849 

7-4 

23   23.665 

81.1 

+  2.4103  +  .0028 

—  .OOI 

+  .0006       o 

.12        .68      .23 

1322 

L  1862 

6.1 

23  52-754 

88.4 

+  1.9229+.  0035 

—  .001 

—  .0009  +    I 

.12            .78         .21 

1323 

y8  Leporis 

2.7 

23  57-655 

67.4 

+  2.5703  +  .0027 

—  .OOI 

+  .0004—    I 

.06           .26         .13 

1324 

Br  759 

6.6 

23  59-875 

74-4 

+  5-I337  +  -oi9° 

-.072 

+  .0170—    4 

.07            .30         .13 

1325 

Li85S 

7.2 

24      7-363 

87-9 

+  2.2289+.0028 

—  .001 

—  .0025       o 

.13         I.O4         .26 

1326 

Br  778 

8.2 

24  35-848 

66.7 

+3-0555  +-0037 

—  .004 

+  .0035       o 

•IS        -57      -29 

1327 

Br  779 

5-i 

24  39.285 

66.0 

+  3.  0460  +.003  7 

—  .004 

+  .0007       o 

.11        .38      .20 

1328 

Pulk^  861 

5-9 

24  43.420 

95-7 

+  3.IH9+.0039 

—  .004 

+  .0001          0 

.14        .81      .18 

1329 

L  1868 

5-8 

24  48-565 

88.3 

+  2.  065  7  +  .003  2 

—  .001 

.0000+     I 

.16        .72      .23 

1330 

A.  Doradus 

5-1 

24  51.603 

84.6 

+  0.8724+.  0082 

—  .005 

—  .002  1  +    I 

.18        .84      .28 

1331 

Br  780  m 

4-3 

25   25-975 

58.7 

+  3.  2090+.  0042 

—  .006 

+  .0008      o 

.11        .39      .23 

1332 

Br  784  m 

5-7 

25   59-695 

77-9 

+3.  1470+.  0040 

-.005 

+  .0004       o 

.11        .34      .16 

1333 

X  Aurigae 

4-9 

26  13.098 

74.1 

+  3.9027  +  .0076 

—  .019 

+  .0005       o 

.08        .28      .13 

1334 

Groomb  966 

6-5 

26  20.972 

73-8 

+7.  9978  +.0705 

—  .442 

—  .0009+    2 

.03        .24      .09 

1335 

Br783 

4.8 

26  20.978 

69.1 

+3.5159+.  0054 

—  .010 

+  .0007       o 

.09        .38      .18 

1336 

Dpt  588 

6.4 

26  26.276 

89.8 

+  3-476o+.oo5i 

—  .010 

—  .0002       o 

.14        .56      .18 

1337 

Bruss  2152 

6.8 

26  26.734 

93-8 

+  3-4757  +  -0052 

—  .010 

—  .0004       o 

.14        .81      .19 

1338 

Br  791 

5-7 

26  50.788 

67.5 

+  2.  5663  +  .OO28 

—  .OOI 

.0000       o 

.12            .40         .21 

1339 

8  Orionis 

2.2 

26  53-853 

68.8 

+3.0638  +.0036 

—  .004 

+  .OOOI          0 

.03             .14         .06 

1340 

u  Orionis 

4.8 

27      5-596 

73-1 

+  2.9013  +.0033 

-.003 

+  .0002      o 

.12             .46         .21 

1341 

L  1888 

5-7 

27   24.445 

81.1 

+  1.6458  +.0035 

—  .002 

—  .OOO4—     2 

.14            .70         .25 

1342 

Br  770 

6.2 

27  34-302 

71.6 

+  5-7979  +  -026i 

-.124 

+  .OO2O—     2 

.11             .46         .21 

1343 

Pu[kM  872 

5-4 

27  37-793 

91.7 

+  3-0338+  .0035 

—  .004 

—  .OOOI         0 

.11             .8l          .19 

1344 

c  Columbae 

3-9 

27  39.760 

80.2 

+  2.  1292  +  .0028 

—  .OOI 

+  .0022          0 

.IO            .48         .17 

1345 

Br  786 

5-8 

27  39-968 

66.4 

+  3-5I5°  +  -°°53 

—  .010 

+  .0007       o 

.12            .39         .21 

1346 

Br  788 

5-7 

28  13.264 

69-3 

+  3.  4080+  .0048 

—  .009 

—  .OOOI         O 

.13            .46         .23 

1347 

a  Leporis 

2.6 

28  19.179 

68.5 

+  2.  645  I  +  .OO29 

—  .002 

+  .OOOI          O 

.03             .20         .09 

1348 

Pi  117 

6.0 

28  22.724 

77-6 

+  4.9i96  +  .oi55 

-•°59 

+  .0008       o 

.12             .52         .21 

1349 

Grweo  412 

5-6 

28  26.902 

91.8 

+  3.0440+  .0036 

—  .OO4 

.0000      o 

.13            .70         .18 

1350 

Groomb  987 

6-3 

5  28  42.821 

86.8 

+  4.5273  +  .on6 

—  .O4I 

+  .0025       o 

-09            .52         .15 

1313  OS  107.     IIM  io"  307° 
13202  716.     6™3  5"  201°. 


1314  Knott.     QM  3"  324°. 
13272725.     nMi2"88° 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


55 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'and  100  A(i' 

Prob.  Errors. 
SEp.  ioo(i'  Sio 

Remarks. 

1301 

—     2   29  2O.86 

76.8 

ir               if 

+  3-53°-     .434 

// 

-•°3 

it 

+  .OOI          O 

ft        tt        ft 
.06      .30    .11 

Dawes  j^-^p  I'.'i  80° 

1302 

+   i  45  16.93 

64.1 

+  3.501-     .448 

-•03 

—  .018      o 

•15      -55    -29 

25  Orionis  (^) 

1303 

+   6  15  32.76 

74-8 

+  3.482-     .463 

-.04 

—  .019      o 

.04      .17    .07 

1304 

+  28  31  22.91 

64-3 

+  3-307-     -546 

-.06 

-.177       o 

.02         .11      .O6 

(y  Aurigae) 

1305 

—  17    4    o.n 

91.0 

+3-463-   -385 

-•°3 

—  .016      o 

.13         .98      .23 

1306 

-3946  16.13 

80.  i 

+3.476-   .285 

—  .02 

+  .003      o 

.12         .55      .20 

15  G  Columbae 

1307 

+  16  36  40.60 

78.8 

+3.446-   .499 

-.04 

—  .008      o 

.11         .38      .16 

113  Tauri 

1308 

-56  13  41.44 

77-4 

+3.476-   .160 

—  .02 

+  .040      o 

.12         .59      .23 

17  G  Pictoris  B.  A.  C.  has  <c 

1309 

+  62  59    1.53 

78.8 

+  3.418-   .814 

-.16 

—  .001       o 

.06         .24      .09 

17  Camelopardi 

1310 

+  30    7  17.29 

89.4 

+3-399-    -552 

-.06 

—  .019      o 

.12        .59     .17 

13" 

+  34  23  26.34 

68.8 

+3-337-   -573 

-.06 

-.056      o 

.08        .28     .14 

1312 

+   2  50  54.93 

72.8 

+3-371"    -452 

-.04 

+  .OOI          O 

•"      -35    -17 

S  712.    9M3"54° 

1313 

+  17  S2  35-24 

66.0 

+3-352-    .504 

-•05 

—  .014      o 

.09         .46      .22 

115  Tauri  * 

I3H 

+  3    032.10 

54-4 

+3-331"    -453 

—  .04 

-.013      o 

.IO         .31      .20 

30  Orionis  (^)  * 

I3IS 

+  21  51    5-34 

60.3 

+3-328-    .519 

-•05 

-.013      o 

.07         .27      .15 

114  Tauri  o 

1316 

-  19  46  56.63 

96-5 

+3-308-    .375 

—  .02 

-  .030      o 

.17      I.I9      .23 

"3759-     9M27"3i8° 

I3i7 

-44  18  51.95 

81.4 

+3.308-    .258 

—  .02 

—  .005      o 

.11         .49      .l8 

1  8  G  Pictoris 

1318 

+  15  47  22.66 

77.6 

+3.278-   .497 

-.04 

-  .030      o 

.11         .36      .l6 

1  16  Tauri 

1319 

—  ii  59    6.18 

74.8 

+3.218-   .403 

-•°3 

-  -054      o 

.11         .56      .23 

1320 

+  25    410.17 

58-7 

+3-1?8-   -533 

-•05 

-  -034      o 

.09         .32      .19 

1  18  Tauri* 

1321 

-  26  40    4.23 

79-4 

+3-I55-   -348 

—  .02 

-  -033      o 

.12         .67      .24 

50  G  Leporis  (Columba) 

1322 

-41    i  47.72 

85-2 

+3.234-   .278 

—  .02 

+  .088      o 

.11         .59      .18 

1  8  G  Columbae 

"1323 

—  20  50  20.93 

72.0 

+3-045-   -372 

—  .02 

—  .094      o 

.07         .25      .12 

0  320.     IOM  3"  290° 

1324 

+  57    9    i-79 

66.6 

+  2.922-   .743 

—  .12 

—  .214—     2 

.07         .22      .12 

18  Camelopardi 

1325 

—  32  29  58.26 

79.6 

+3-°74-   -322 

—  .02 

-.051       o 

.13         .77      .27 

196  Columbae 

1326 

—   o  52  50.21 

72.8 

+3-034-   -442 

-•03 

-  .050      o 

•13      -55    -24 

1327 

-    i  10  15.78 

67.6 

+3-053-   -440 

-•°3 

—  .026      o 

.08         .31      .15 

31  Orionis  * 

1328 

+   i  42  36.39 

90.8 

+  3.060—   .450 

-•°3 

-.013      o 

.13         .6l      .18 

1329 

-37  1849.67 

79-8 

+3-J33-   -299 

—  .02 

+  .067       o 

.13         .50      .20 

20  G  Columbae 

1330 

-585948.32 

81.1 

+  3.086—   .127 

—  .02 

+  .024      o 

.14         .64      .23 

i33i 

+  5  52  18.26 

56.8 

+  2.976-   .464 

-.04 

—  .036      o 

.08         .33      .20 

32  Orionis  A  * 

1332 

+  312  57.66 

68.7 

+  2.957-   .455 

-•°3 

—  .007       o 

.09         .28      .15 

33  Orionis  n1  * 

1333 

+  32    7    4-87 

7i-3 

+  2.928-   .563 

-•05 

—  .016      o 

.07         .28      .13 

1334 

+  745839-93 

76.1 

+  2.952-1.155 

-•32 

+  .019      o 

.04         .23      .09 

1335 

+  1831  11.43 

66.2 

+  2.924—   .508 

-.04 

—  .009      o 

.07         .31      .15 

119  Tauri 

1336 

+  1659    2.93 

75-3 

+2.916—   .502 

-.04 

—  .009      o 

.11         .35      .16 

2  730.    10"  140° 

1337 

+  16  58  55.24 

93-2 

+  2.932-   .502 

-.04 

+  .007      o 

.13         .80      .19 

1338 

-2056  15.49 

75-6 

+  2.849-   .371 

—  .02 

—  .041       o 

.12         .46      .20 

10  Leporis 

1339 

—     0  22   23.36 

67.1 

+  2.882-    .443 

—  .02 

—  .003       o 

.03         .14      .06 

W.  H.     7M  53"  o° 

1340 

—     7   22  31.30 

69.4 

+  2.856-   .420 

—  .02 

—  .012       o 

•09      -34    -17 

i34i 

-47    859.14 

75-8 

+  2.688-   .238 

—  .02 

--I53       o 

.11        .51      .21 

20  G  Pictoris 

1342 

+  64    5  22.99 

65-4 

+  2-759-    -838 

-•13 

-  .068       o 

.08        .28     .15 

19  Camelopardi 

1343 

-    i  3951-20 

88.8 

+  2.794-    .439 

—  .02 

—  .028       o 

.11        .67      .18 

ft  2048.    IOM  2'/3    353° 

1344 

-35  3237-79 

72.6 

+  2.770-    .309 

—  .02 

—  .049      o 

.09        .43      .19 

1345 

+  1828    8.02 

63.2 

+  2.813-    .509 

-.04 

—  .006      o 

.11        .42      .23 

1  20  Tauri 

1346 

+  14  14    8.05 

65.6 

+  2.765-    .493 

-•°3 

—  .006       o 

.11         .40      .21 

35  Orionis 

1347 

-i?  5337-76 

66.4 

+  2.765-    .383 

—  .02 

+  .003       o 

.04         .19      .09 

h  3766.     IOM  35"  156° 

1348 

+  5421  43.80 

68.2 

+  2.756-    .712 

-.09 

—  .001       o 

.14         .44      .23 

1349 

-**i3  35-47 

86.6 

+  2.744-   .441 

—  .02 

—  .007      o 

.12        .59     .18 

1350 

+  473857.11 

81.7 

+  2.713-    .656 

-.07 

—  .015       o 

.09        .37      .14 

1331  S  728.     4™6-7M   i",  or  less. 


1332  S  729.     7^3  2"  27° 


PRELIMINARY  GENERAL  CATALOGUE   OF  STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and  Sec. 
Var. 

3"t 

H-  and  100  A  p 

Prob.  Errors. 
aEp.      loon     a  10 

M 

h    m         s 

s                 s 

s 

s 

//            it         it 

1351 

L  1896 

6.0 

5  28  45-554 

84.6 

+  1.7032  +.0038 

—  .002 

+  .0019       o 

.18        .75       .27 

1352 

Br  793 

5-5 

29    0.990 

82.4 

+  3.  1560+.  0038 

-.005 

—  .0019       o 

.13        .34      .16 

I3S3 

Br  792 

4-5 

29  19.808 

83.5 

+  3.  2920+.  0042 

-.007 

—  .0001       o 

.06        .33       .11 

1354 

Br  790 

5-5 

29  20.621 

70.8 

+  3.6618  +  .  0057 

-.013 

+  .0005      o 

.12            .44         .21 

1355 

L  1895 

5-5 

29  29.338 

78.4 

+  2.0185  +  .0030 

—  .001 

+  .0030      o 

.14            .70         .26 

1356 

L  1890 

5-9 

29  32.706 

82.4 

+  2.  1448  +.0028 

—  .001 

+  .0072      o 

.14            .78         .26 

1357 

X1  Orionis 

3-4 

29  37-799 

68.2 

+  3.3029+.  0042 

—  .007 

+  .0001       o 

.06            .27          .13 

1358 

L  1892 

7-3 

29  39-438 

84-5 

+  2.  1657  +  .OO28 

—  .001 

—  .0005       o 

.15            .78         .25 

I3S9 

PulkH  506 

5-8 

29  42.009 

96.8 

+  3.3ii8  +  .oo43 

-.007 

+  .0017       o 

.14         I.O5          .20 

1360 

Groomb  944 

6-5 

29  54-49' 

76-5 

+  18.694-  +.512- 

+  .016-+  6 

.05            .26         .IO 

1361 

Arm  1238 

5-8 

3°    7-725 

90.4 

+  2.9314+.  0032 

-.003 

+  .OOOI         0 

.12            .72         .18 

1362 

Br  801 

4.8 

30    9.376 

84.8 

+  2.93  1  7  +  .0032 

—  .003 

+  .0002       o 

.10        .56      .17 

1363 

0l  Orionis 

4-9 

30  21-745 

71.8 

+  2.  9460  +.OO3  2 

—  .004 

+  .OOO2          O 

.06           .32         .14 

1364 

Br  803 

4.8 

30  27.136 

72.2 

+  2.9587  +  .0033 

—  .004 

+  .OOOI          0 

.IO           .40        .19 

1365 

&  Orionis 

5-2 

30  28.245 

76.6 

+  2.9460+.  0032 

—  .004 

+  .0009       o 

.06           .36         .14 

1366 

i  Orionis 

2.9 

3°  32-473 

-   75-4 

+  2.9338  +.0032 

—  .004 

+  .OO02          0 

.05            .28         .11 

136? 

Br785 

7.2 

30  38.656 

66.6 

+  5.  0647  +  .01  5  2 

—  .069 

+  .0046—   3 

.13            .56         .27 

1368 

Br  807 

5-6 

3°  43-525 

75-8 

+  2.  9588+.  0033 

—  .004 

+  .0005       o 

.13            .48         .21 

1369 

Pi  145  m 

5-9 

3054-iiS 

84-5 

+  3.7448  +.0059 

—  .016 

+  .OOIO          O 

.12            .45          .16 

1370 

c  Orionis 

1.6 

31    8.349 

69.4 

+  3-0430+.0034 

—  .004 

.0000      o 

.03            .15          .07 

1371 

Br  782 

7.0 

31  12.760 

72.9 

+  5-5552  +  .0208 

—  .104 

+  .0006       o 

.14            .52          .24 

1372 

Br  798 

5-8 

3i  I5-5I9 

67.1 

+  3.4810+.  0047 

—  .010 

+  .0038       o 

.14            .50         .26 

1373 

Br  805 

4-3 

31  24.724 

67.0 

+  3.2942  +  .0037 

-.007 

+  .0062—     2 

.11             .39         .20 

1374 

L  1902 

5-9 

31  34-474 

78-3 

+  2.2065  +  .OO29 

—  .001 

+  .0003+  I 

.18      i.oo      .36 

1375 

?Tauri 

3-o 

31  40.073 

75-3 

+  3.5838+.oo5i 

—  .012 

+  .0002       o 

.03            .18         .07 

1376 

Dpt  611 

5-8 

31  42.584 

96.0 

+  2.  9297  +  .003  1 

-.003 

—  .0003       o 

.14           .8l         .18 

1377 

L  1923 

6.7 

3i  45-331 

82.7 

+  i.i855  +  .oo55 

—  .OO4 

+  .005  1       o 

.18           .72         .27 

1378 

Br  799  m 

5-7 

32  12.776 

64.7 

+  3-85°7  +  -oo63 

-.018 

—  .0010       o 

.13            .50         .26 

1379 

Pi  169 

6.4 

32  I5-590 

84.2 

+  2.3450+.  0027 

—  .OOI 

+  .OOII         O 

.14            .64         .22 

1380 

Radcl  1516 

5-9 

32  25.055 

83-2 

+  6.0039  +  .0250 

--I45 

+.0008-  I 

.08            .64         .19 

1381 

L  1949 

5-4 

32  26.943 

79-5 

+0-32I9+.OI03 

—  .004 

+.0057-  I 

.l6            .69         .27 

1382 

PulkM  518 

6.0 

32  33.880 

99.6 

+  2-93I3  +  .003I 

—  .004 

—  .0016       o 

•15          I-1?          -19 

1383 

Pulkjj  886 

6.0 

32  36.212 

96.8 

+  3.  2475  +  .0038 

—  .006 

+  .0009      o 

.14            .96         .19 

1384 

ft  Doradfts 

3-8 

32  45-4I5 

77-9 

+  0.5161  +  .  0091 

—  .004 

—  .OOII         O 

.12            .57         .22 

1385 

Pi  146 

6.7 

33  iS-S" 

77.1 

+  4.  8636+.  0109 

-•059 

+  .0013—  9 

.11             .52         .21 

1386 

Pi  177 

6.2 

33  19.466 

82.4 

+  2.  3691  +  .OO26 

—  .001 

+  .0005      o 

.14            .64         .22 

1387 

L  1930 

6.3 

33  J9-709 

80.2 

+  1.6259+.  0037 

—  .002 

—  .0041       o 

.l6            .99         .34 

1388 

Br  810 

5-2 

33  32-355 

67-3 

+3.7176+.  0054 

-.015 

+  .0023      o 

.11             .38         .19 

1389 

<r  Orionis  m 

3-8 

33  43-537 

71.8 

+  3.0107  +  .0032 

—  .004 

.0000       o 

.05            .22         .IO 

1390 

Pi  183 

5-4 

33  50-385 

88.0 

+  2.3409+.  0027 

—  .001 

—  .0030       o 

.15            .82         .24 

1391 

to  Orionis 

4.6 

33  54-355 

65.2 

+3.  167  1  +  .0035 

—  .006 

+  .0004       o 

.11            .34         .19 

1392 

Br  816 

S-o 

34    2.763 

65-3 

+  2.  9019+.  0030 

-.003 

—  .OOII          0 

.12            .42          .22 

1393 

Br  797 

6.4 

34  32-743 

72.2 

+  5.0842  +  .OI4I 

-.071 

+  .0029+   I 

•13            -50         -23 

1394 

Br  795 

6-S 

34  56.692 

71.7 

+  5.5i2o+.oi77 

—  .101 

+  .0003      o 

.11             .46         .21 

I39S 

L  1941 

6.1 

35  30-833 

86.6 

+  1.9257  +  .0031 

—  .001 

—  .OOII         0 

.15            .78         .24 

1396 

Br  817 

S-o 

35  30-937 

68.9 

+  3.4664+.  0042 

—  .010 

+  .0009      o 

.11             .40         .20 

1397 

Br  808 

7-i 

35  42-465 

75-3 

+  4.9589+.  0124 

-.063 

+  .0015       o 

.12            .51          .21 

1398 

£  Orionis 

i-7 

35  42-779 

66.1 

+  3.0265  +  .0032 

—  .004 

+  .0005       o 

.04            .l6         .08 

1399 

PulkM  896 

5-i 

35  46.091 

92.1 

+  3.0441  +  .0032 

—  .005 

—  .0008      o 

.11            .70         .I? 

1400 

y  Mensae 

5-2 

5  35  50-438 

87.7 

—  2.  4OOI  +  .O459 

+  .088 

+  .0263+34 

.13            .87          .23 

13632748. 


13"  311°;  8"?i  17"  342°;  6?6  13"  61°;  two  fainter. 


1364  Dawes.     8?6  i  '.'6  217°. 


CATALOGUE   OF   6188   STARS   FOR    IQOO 


57 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i'andioo  A(i' 

Prob.  Errors. 
8  Ep.  100  H-'  8  10 

Remarks. 

1351 

01                 // 

-45  S9S4-8I 

77-5 

//                    ti 

+  2.758-    .248 

—  .02 

// 
+  .034       o 

it         tt       a 
•14      -55    -23 

21  G  Pictoris 

1352 

+   3  41  54.60 

78.7 

+  2.681-    .457 

-•03 

—  .021      o 

.12      .33    .16 

38  Orionis  «2 

1353 

+  9  25  l8-73 

78.1 

+  2.667-    -477 

-•°3 

-.008      o 

.06         .32      .12 

37  Orionis  <f>1 

1354 

+  23  5822.84 

68.1 

+  2.643-    -53° 

-.04 

-.031      o 

.IO         .42      .20 

121  Tauri 

1355 

-383458-84 

76.9 

+  2.656-   .293 

—  .02 

—  .005      o 

.12         .59      .23 

24  G  Columbae 

1356 

-35  12  29.38 

72.6 

+  2.611—    .312 

—  .02 

-.045-  I 

.13         .63      .27 

25  G  Columbae 

1357 

+  9  52    1.74 

68.4 

+  2.638-    .478 

-•°3 

—  .on       o 

.06         .27      .13 

S738.     6Mo4"4S° 

1358 

-3422  23.37 

73-9 

+  2.661-    .314 

—  .02 

+  .015      o 

.IS         .63      .27 

26  G  Columbae 

1359 

+  10  10  24.66 

91.1 

+  2.637-    .480 

-•03 

—  .006      o 

.12         .77      .19 

OS  1  1  1.     ioM3"352° 

1360 

+  85    849-75 

77.1 

+  2.628—2.706 

+  .004-     2 

.06         .30      .12 

1361 
1362 

-   6    433-02 
-   6    4    6.68 

85.8 
82.2 

+  2.609-    .425 
+  2.609-   .425 

—  .02 
—  .02 

+  .004      o 
+  .006      o 

.10      .57    .17 

.09        .52      .17 

}S747.    36"  223° 

1363 

-   5  27  20.37 

71.9 

+  2.589-   .427 

—  .02 

+  .004      o 

.07        .30     .13 

In  "  Trapezium."* 

1364 

-   4  54  14.52 

72.4 

+  2.575-    .429 

—  .02 

—  .002      o 

•08        .33      .15 

42  Orionis  c1  * 

1365 

-   5  28  54.35 

80.8 

+  2.591-    .427 

—  .02 

+  .015      o 

.08        .41      .14 

SApp.    6M5    52"  93° 

1366 

-   5583i-9i 

74-4 

+  2.566-    .425 

—  .02 

—  .004      o 

.06      .25    .10 

2752.     7?7  n"  141° 

1367 

+  56  18  10.06 

59-4 

+  2.427-    .734 

-.09 

-.134-  I 

.11         .36     .21 

22  Camelopardi 

1368 

-   4  55  16.91 

76.2 

+  2-555-   -429 

—  .02 

+  .OOI         O 

.IO        .42      .17 

45  Orionis  <? 

1369 

+  2651  42.93 

79-6 

+  2.508-   .543 

-•°3 

-  .030      o 

.11         .42      .17 

S  749.  6ll7-6M7  o'-'p  352°  slow 

1370 

-   i  15  56-76 

69.2 

+  2.516-  .441 

—  .02 

—  .002       o 

.03        .15      .07 

1371 

+  61  53  24.67 

55-3 

+2.526—  .805 

—  .11 

+  .015      o 

.12        .31      .21 

21  Camelopardi 

1372 

+  165842.88 

62.6 

+  2.473-   -5°5 

-•°3 

-.035-  I 

.12         .47      .25 

122  Tauri 

1373 

+  9  14  11.00 

63-3 

+  2.187-  .478 

-•03 

-.307-  I 

.08         .30      .l6 

40  Orionis  <f>2 

1374 

-33    851-28 

73-9 

+  2-575-   -320 

—  .OI 

+  .095      o 

.17    1.  10    .43 

28  G  Columbae 

1375 

+  21      453.60 

73-2 

+  2-444-   -S11) 

-•03 

—  .028      o 

.04        .18     .08 

1376 

-   6    7  39.12 

85.8 

+  2.444—  -425 

—  .02 

—  .024      o 

.12        .49     .I? 

2754.  ioMs"288° 

1377 

-5458    7-50 

76.8 

+  2.468-  .173 

—  .OI 

+  .004-  I 

•H     -55    -23 

23  G  Pictoris 

1378 

+  3025  59.16 

54-6 

+  2.416-   .558 

-.04 

—  .009      o 

.09        .35      .21 

26  Aurigae  * 

1379 

-2846  13.36 

8i-5 

+  2.429-   .341 

—  .OI 

+  .008       o 

.12        .49     .l8 

30  G  Columbae 

1380 

+  65  38  36.59 

77-3 

+  2.384-  .870 

-•13 

-  .023      o 

.06        .42      .15 

1381 

-64  17  37.13 

82.4 

+  2.376-   .048 

-•°3 

—  .028—    I 

.14        .69      .24 

28  G  Doradus 

1382 

-   5  59  56-37 

97-4 

+  2.391-  .425 

—  .02 

-.003      o 

.14        .96     .18 

1383 

+   7  28  54.88 

92-3 

+  2.368-   .471 

-•°3 

-  .023      o 

.13         .73      .18 

1384 

—  62  33  18.26 

78-5 

+  2.391-   .076 

—  .02 

+  .014      o 

.IO        .51      .19 

1385 

+  53  26  26.12 

71.2 

+  1.827-   -7°5 

-.O? 

—  .510      o 

.10      .41    .19 

1386 

-27  5546.65 

77-2 

+  2.269-   .344 

—  .OI 

-  -059      o 

•13      -55    -22 

34  G  Columbae  v1 

1387 

-47  2230.03 

76.9 

+  2.301—   .236 

—  .OI 

—  .027+  I 

.14     .69   .27 

25  G  Pictoris 

1388 

+  255027.32 

55-4 

+  2.278-   .539 

-•°3 

-.031       o 

.09    .30  .19 

125  Tauri 

1389 

-   2  39  27.95 

74-7 

+  2.294-   .437 

—  .02 

+  .001          0 

.05      .24    .10 

01032.     4  1'o-s'Cs  o"2  329°* 

1390 

-  28  44  58.69 

77-6 

+  2.331-   .340 

—  .OI 

+  .048       o 

•13      -57    -23 

34  G  Columbae  v3 

1391 

+  43  52-45 

67.6 

+  2.280—   .460 

-•03 

+  .OO2         O 

.11         .38      .20 

1392 

-   7  16    6.68 

60.7 

+  2.218—   .421 

—  .02 

-  .047      o 

.10         .34      .20 

49  Orionis  d 

1393 
1394 

+  5631  45.23 
+  61  25  36.58 

61.6 
66.6 

+  2.250-   .738 
+  2.187-   -800 

-.08 
-.09 

+  .028      o 
.000      o 

.11         .30      .l8 

.10      .34    .18 

24  Camelopardi 
23  Camelopardi 

1395 

-4045  47.66 

81.2 

+  2.154—   .280 

—  .OI 

+  .016      o 

.I3         .58      .21 

37  G  Columbae 

1396 

+  16  2855.28 

67.7 

+  2.IIO—     .503 

—  .02 

—  .028      o 

.IO         .40      .20 

126  Tauri 

1397 

+  544858.79 

66.8 

+  2.103—     .720 

-.06 

—  .018      o 

.11         .39      .20 

25  Camelopardi 

1398 

-   i  59  43-72 

67.8 

+  2.II3-     .440 

—  .OI 

—  .007      o 

.04         .17      .08 

2774.    54   2'/6    156° 

1399 

-    i  1053.20 

89.0 

+  2.  1  08—     .442 

—  .OI 

—  .008      o 

•09     -57    -iS 

1400 

—  76  24  44.18 

80.0 

+  2.410+     .343 

—  .11 

+  -301-   4 

.10     .52    .18 

1378  ft  1240.     6^3-6^7  <o'/3,  very  slow;  S  753.    S^o  12"  268°. 

1389  S  762.     IOM  n"  237°;  7?s  13"  83°;  61C3  41"  6i°[  print,  star  =  ft  1032,  slow  binary. 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

|i  and  100  A  n 

Prob.  Errors. 
aEp.      loop,     aio 

M 

h    m         s 

S                       5 

s 

s 

//              //           // 

1401 

a  Columbae 

2.6 

536  1.685 

71.4 

+  2.i7i8  +  .oo27 

—  .001 

+  .0003      o 

.04            .21          .09 

1402 

L  1936 

5-7 

36  7-874 

84-3 

+  2.  2l62+.  O026 

—  .001 

-  .0034       o 

.16            .82          .27 

1403 

L  1985 

6.7 

36  54-818 

84-5 

—  0.0087  +  .0116 

—  .002 

-.0059+  I 

.14            .80         .25 

1404 

Br  820 

7.0 

37    0.682 

83-0 

+  3.  5281  +  .0043 

—  .Oil 

—  .0003       o 

.13            .34         .16 

1405 

L  2016 

5-8 

37  14-172 

90.8 

—  1.  5089+  .0265 

+  .036 

—  .0036+   6 

.l6         1.  06         .26 

1406 

Br823 

7-i 

37  17-521 

81.6 

+3.4046+.  0040 

—  .009 

—  .0025      o 

.12            .44         .17 

1407 

Br  822 

5-3 

37  18.325 

78.3 

+  3.  1019+.  0032 

—  .005 

-  .0035      o 

.11            .28         .14 

1408 

L  I9SS 

6.7 

37  47-401 

84.6 

+  2.  1932  +  .0027 

—  .OOI 

—  .0004      o 

.14           .93         .27 

1409 

Br  828 

6.1 

38    1-540 

73-8 

+  2.  5239+.  0026 

—  .OO2 

+  .0005       o 

.12            .42         .20 

1410 

Br  811 

6.1 

38    4.658 

64.4 

+  5-°536+.oii7 

—  .069 

+  .0034-  I 

.13            .48         .25 

1411 

o  Aurigae 

5-7 

38    9-172 

82.0 

+  4.6453  +  .0092 

-•047 

—  .0003      o 

.05        .30      .10 

1412 

Br  812 

7-i 

38  22.825 

65.0 

+  5.n63  +  .oi22 

-•073 

+  .0043       o 

.13            .54         .28 

1413 

L  1962 

6-5 

38  22.917 

83.8 

+  2.  2857  +  .O026 

—  .001 

—  .0003       o 

.12            .70         .22 

1414 

L  1964 

5-5 

38  40.050 

84.4 

+  2.  1  502  +.OO28 

—  .OOI 

—  .0002          0 

.15            .87          .27 

HIS 

Br  824  m 

7-5 

38  48.258 

68.4 

+3.4298  +.0038 

—  .009 

+  .0004       o 

.IO            .44         .21 

1416 

Paris  6680 

6.0 

38  58.972 

95-0 

+  2.  6255  +.0025 

—  .002 

+  .001  1          O 

.15            .98         .21 

1417 

Br  826 

7-i 

39    7-549 

74-3 

+  3-4557  +  -0038 

—  .010 

+  .0007       o 

.10        .32      .15 

1418 

L  1973 

6.6 

40  12.008 

85.7 

+  1.9797  +  .0028 

—  .OOI 

+  .0030       o 

.11             .54         .I? 

1419 

Br836 

6.7 

40  16.429 

81.4 

+  2.5OO6+.OO2O 

—  .002 

—  .O2I4—     2 

.12             .54         .20 

1420 

y  Leporis 

3-7 

40  17.671 

76.7 

+  2.5OI2+.OO2O 

—  .002 

—  .0201—   3 

.06            .24         .IO 

1421 

L  1981 

6.6 

40  50.841 

86.6 

+  1.7002  +  .003  5 

—  .002 

+  .001  1  +     I 

.12            .64         .20 

1422 

Br  830 

6.1 

41    0.407 

60.6 

+3.4495  +.0036 

—  .009 

+  .0007       o 

.12            .39         .23 

1423 

Br833 

5-9 

4i  3I-398 

68.4 

+3.4168+.  0035 

—  .009 

+  .OOI2         O 

.11            .48         .23 

1424 

Br832 

5-7 

41  36-331 

81.0 

+  3-4975  +  -0037 

—  .Oil 

+  .0002       o 

.06           .33         .11 

1425 

Pi  214 

7.2 

41  47-580 

71.9 

+  3.6839+  .0041 

—  .014 

+  .0002       o 

.12            .48         .22 

1426 

Br  827 

7.2 

4i  54-454 

75-2 

+  4.  1  703  +  .0057 

-.027 

—  .0003      o 

.11            .40        .18 

1427 

Br  821 

6.7 

42    2.228 

66.1 

+  5.H56+.OI03 

-.073 

+  .0005       o 

.12           .46         .24 

1428 

Br834 

5-4 

42    2.613 

76.0 

+  3.4024+.  0034 

—  .009 

+  .OOI2          O 

.11            .33         .16 

1429 

r  Aurigae 

4.6 

42  14-734 

75-i 

+  4.  1549  +.0056 

-.027 

—  .0021       o 

.09           .27         .13 

1430 

/x  Columbae 

5-4 

42  16.913 

79.2 

+  2.  2284+.  OO25 

—  .OOI 

—  .OOOI          0 

.10        .44      -17 

H3I 

Pi  222  m 

6.1 

42  24.175 

81.0 

+  3-58o3  +  .oo38 

—  .012 

+  .0009      o 

.11            .64        .22 

1432 

£  Leporis 

3-6 

42  25.441 

76-5 

+  2.  7176+.  O025 

—  .002 

—  .0012       o 

.05            .28         .11 

1433 

Br  841  m 

5-4 

42  37-831 

76.0 

+  3.  2227  +  .  0030 

—  .006 

+  .0004       o 

.11            .34         .16 

1434 

Br83S 

5-i 

42  52.725 

67.2 

+  3.68io+.oo39 

—  .014 

+  .0003       o 

.10        .33      .17 

1435 

K  Orionis 

2.1 

43    0.822 

77.0 

+  2.  8446  +.0026 

-.003 

+  .0002       o 

.03        .18      .07 

1436 

Pi  241 

7-6 

43  22.707 

88.0 

+  2.  3900+.  0025 

—  .001 

+  .0018      o 

.14        .82      .23 

1437 

L  2003 

5-2 

43  41-029 

77.1 

+  1.6582  +  .0032 

—  .002 

—  .0028      o 

•IS        -90      -33 

1438 

Br  842 

S-o 

43  55-878 

67.6 

+  3-3699+  .0032 

-.008 

—  .0009      o 

.14        .44      .23 

1439 

v  Aurigae 

5-1 

44  i3-l83 

72.6 

+  4.0902  +  .0048 

-.025 

+  .0030      o 

.09        .39      .17 

1440 

L  2005 

7-3 

44  20.679 

9°-3 

+  1.8865  +  .0028 

—  .OOI 

—  .0010      o 

.13        .68      .18 

1441 

Pi  239 

6.0 

44  3  2  -°90 

83.6 

+  3.  3040  +.0030 

-.007 

+  .0004      o 

.11        .48      .17 

1442 

v  Aurigae 

4.2 

44  33-5I9 

76.0 

+  4.1563  +  .  0051 

-.027 

—  .0004      o 

.04            .22         .09 

1443 

8  Doradus 

4-5 

44  35-6i4 

80.4 

+  0.1028  +.0082 

—  .002 

—  .0062       o 

.11             -54         .19 

1444 

Pi  236 

5-8 

44  39.966 

77-8 

+  3.  7788+.  0040 

—  .016 

—  .0007      o 

.l6            .64         .26 

1445 

Br845 

5-7 

44  47-544 

75-4 

+  3-4I25  +  .0032 

—  .009 

+  .0008      o 

.10       .33      .16 

1446 

/8  Pictoris 

3-9 

44  54-985 

81.6 

+  1.4202  +  .0039 

—  .003 

+  .0007  +     2 

.14        .68      .24 

1447 

Paris  6859 

5-7 

45    3-86i 

95-9 

+  2.  7243  +  .  0024 

—  .002 

—  .0028      o 

.13          1.05          .20 

1448 

Br  846 

6.9 

45    6.967 

70.1 

+  3-4I54+-003I 

—  .009 

+  .0003      o 

.10         .40       .19 

1449 

Tf  Mensae 

5-8 

45    7-665 

80.6 

—  4.  8448  +  .  1052 

+  •449 

+  .0905  +  248 

.08            .69         .22 

1450 

Br  847 

6.9 

5  45  10.587 

69-5 

+  3.4064+.  0032 

—  .009 

+  .OOII         O 

.09            .39         .18 

1415  OS  115.    8M  o'/8  121°. 


1427  /3.     IOM  25"  131° 


CATALOGUE   OF   6188   STARS   FOR 


59 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3<»t 

(1'and  100  A  |t' 

Prob.  Errors. 
SEp.  100  |i'  Sio 

Remarks. 

1401 

0             /                 // 

-34    7  38.54 

69-3 

//                      // 

+    2.058-.  316 

—  .01 

// 
-  -035       o 

ti              rt            tt 
.05         .27      .12 

Innes.  i2M  n"  358° 

1402 

-32  40  54-S2 

72.0 

+    2.052—  .322 

—  .01 

-.032       o 

.14         .58      .26 

39  G  Columbae 

H03 

-66  36  59.48 

82.8 

+   2.035  +  .001 

-•03 

+  .019+  I 

.12        .6l      .20 

31  G  Doradiis 

1404 

+  i855  55-40 

80.8 

+     2.  OO2—  .512 

—  .02 

—  .006      o 

.12         .37      .16 

127  Tauri 

1405 

-7348    1.42 

9°-3 

+     2.059+.  219 

-.06 

+  .071       o 

•13      -97    -23 

26  G  Mensae 

1406 

+  14    749.81 

76.2 

+     1.  967  -.494 

—  .02 

—  .016      o 

.10      .39    .17 

Arm  1274 

1407 

+    i  25  34-17 

77.6 

+     1.  964  -.450 

—  .01 

—  .018      o 

.10      .32    .14 

51  Orionis  b 

1408 

-33  2659.27 

73-3 

+   1-947-  -319 

—  .01 

+  .007       o 

.12        .57      .24 

40  G  Columbae 

1409 

—  22   25   20.10 

80.0 

+   1.939-.  367 

—  .01 

+  .02O         O 

•13      -S3    .21 

12  Leporis 

1410 

+  56      427.30 

56.2 

+   1.859-  .735 

-.06 

-  .056      o 

.11         .31      .20 

26  Camelopardi 

1411 

+  49  46  57-36 

76.8 

+   i.  900-  .675 

-.05 

-  .008      o 

.06         .29      .11 

1412 

+  565256.87 

63-4 

+   i.  860—  .744 

-.06 

—  .028—    I 

.12         .45      .24 

28  Camelopardi 

HI3 

-3°35    °-92 

78-3 

+   1.896-.  332 

—  .01 

+  .008      o 

.11         .49      .19 

41  G  Columbae 

1414 

-3443    0.41 

73-i 

+   i.  905  -.3  13 

—  .01 

+  .042       o 

.15         .69      .30 

42  G  Columbag 

HIS 

+  15    i  10.19 

69-3 

+   1.828—  .499 

—  .02 

-.023      o 

.08         .40      .18 

Abo  128* 

1416 

-  18  36  10.54 

93-5 

+   1-799-  -382 

—  .01 

-  -°37      o 

.15      I.O9      .24 

1417 

+  16    233.74 

74-i 

+   1.809—  .502 

—  .02 

—  .014      o 

.10      .34    .16 

1  28  Tauri 

1418 

-3927    4.18 

78.4 

+   1.724—  .289 

—  .01 

—  .006      o 

.11         .46     .18 

43  G  Columbae 

1419 

-22   27   17.33 

79-7 

+   i.37i-.36i 

—  .01 

-•352+  3 

.12         .67      .24 

I 

1420 

-22   28  51.45 

76.2 

+   I-346-.  361 

—  .01 

-•376+  3 

.06         .25      .IO 

! 

1421 

-45  S2  43-05 

84.6 

+   1.761  —  .248 

—  .01 

+  .088      o 

.11         .54      .18 

29  G  Pictoris 

1422 

+  1547     0.02 

56-5 

+   i.  649  -.502 

—  .02 

—  .010      o 

•ii      -37    -23 

129  Tauri 

1423 

+  1427   4.81 

70.9 

+   1.558-  .497 

—  .02 

—  .056      o 

.10         .46      .21 

131  Tauri 

1424 

+  17  41  29.91 

77-4 

+   1.597-.  509 

—  .02 

—  .010      o 

.06         .32      .12 

130  Tauri 

1425 

+  2439  0-38 

66.8 

+   i.  563  -.536 

—  .02 

—  .028      o 

.10         .39      .20 

OS.    7M  94"  166° 

1426 

+392955.61 

70.2 

+   1.557-.  607 

-•03 

—  .024      o 

.09         .33      .16 

28  Aurigas 

1427 

+  56  53    9.00 

59-7 

+   1.564-  .744 

-•05 

—  .006      o 

.10         .34      .20 

29  Camelopardi  * 

1428 

+  13  51  47.70 

72.7 

+   1.556-.  495 

—  .02 

-.013       o 

.11         .34      .17 

133  Tauri 

1429 

+  39    849.38 

73-8 

+   1.526—  .604 

-•03 

—  .026      o 

.07         .28      .12 

1430 

-32  2039.79 

71.1 

+   1.522-.  325 

—  .01 

—  .026      o 

.10         .45      .20 

1431 

+  20  50    3.86 

74-4 

+   i.  516-  .521 

—  .02 

—  .022      o 

.09         .43      .18 

* 

1432 

-14  51  32.91 

76.7 

+   1.538--  395 

—  .01 

+  .OO2         O 

.06         .30      .12 

1433 

+  6  25    7.90 

68.7 

+   i.  495  -.469 

—  .02 

-  .023      o 

.09         .29      .15 

52  Orionis  * 

1434 

+  2432      2.OI 

58.2 

+   i.  460-  .536 

—  .02 

-  .036      o 

.08         .29      .17 

132  Tauri 

1435 

—   9  42  18.48 

71.8 

+   1.479-  .414 

—  .01 

—  .005       o 

.04         .21      .09 

1436 

—  27    IO  IO.22 

87.6 

+   i.  443  -.348 

—  .OI 

—  .010      o 

.12         .64      .19 

1437 

-4638      2.09 

72.8 

+   1.433-.  241 

—  .OI 

+  .007      o 

.12        .63      .26 

30  G  Pictoris 

1438 

+  12  37  10.58 

69.8 

+   1.378-.  490 

—  .02 

—  .026      o 

.12        .45      .22 

134  Tauri 

1439 

+  37  1636.78 

67.1 

+   1.341-.  596 

—  .02 

-  .038      o 

.08        .32      .16 

1440 

-4i  37  27-15 

85.3 

+   1-335-  -275 

—  .OI 

-  -033      o 

.11        .50     .I? 

1441 

+  95025.85 

78-5 

+   1.339-  .481 

—  .02 

-.013       o 

.10     .43    -17 

1442 

+  39    7    9.06 

74.6 

+   i.  356-  .605 

—  .02 

+  .006      o 

.05        .27      .11 

W.  H.    IOM  55"  207° 

1443 

—  65  46  22.55 

79-9 

+   1.357-.  015 

—  .02 

+  .OIO+    I 

.09        .49     .I? 

1444 

+  27  56  16.31 

78.2 

+   1.340-  .550 

—  .02 

.000      o 

•14     -57    -23 

1445 

+  14  16  36.00 

72.8 

+   i.  296-  .497 

—  .02 

-  .033     ° 

.09     .31    .15 

135  Tauri 

1446 

-5i    6    9.37 

76.9 

+   1.408—  .207 

—  .OI 

+  .090      o 

.11      .48    .19 

1447 

-  H  3°  47-49 

91.0 

+   1.269—  .396 

—  .01 

-  .036      o 

•14      -93    -23 

69  G  Leporis  * 

-TT  ••                                                        M            //                                 O 

1448 

+  14  24  51.74 

66.8 

+   i.  273-.  497 

—  .01 

—  .028      o 

.09      .37    .18 

Kustn.  23.  9™  i  "o  104° 

1449 

-803239.77 

79-9 

+   2.372  +  .6gi 

-.17 

+  1.072-13 

.06      .58    .19 

1450 

+  14    i    6.85 

65-9 

+   i.  300-.  496 

—  .01 

+  .004      o 

.08      .33    .16 

I43i  OS  n8.    8Mo'.'7320°;  7M  75"  162°.  14332795.    6^2-6^2  i'/4  206°.  1447/394.    9" 


6o 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    1900 


no. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.  and  100  A  p. 

Prob.  Errors. 
a  Ep.     ioo(i     a  10 

M 

h     m           s 

s               s 

s 

s 

//              //           // 

1451 

Pi  252 

6.0 

5  45  42.899 

81.6 

+2.5055  +.0025 

—  .001 

—  .0006       o 

.12            .63          .22 

1452 

Br83i 

5-3 

46    0.413 

75-4 

+  5-37  13  +  -0094 

—  .092 

+  .0009—    i 

.08            .33         .14 

1453 

£  Aurigae 

S-o 

46  27.907 

66.0 

+  5.0260+.  007  7 

-.068 

—  .0009       o 

.11             .51          .25 

1454 

Br8S3 

5-5 

46  32.326 

69.8 

+  2.  8964+.  0025 

—  .OO4 

+  .0008      o 

.12            .42          .21 

1455 

Br  849 

5-8 

46  41.438 

60.0 

+  3.  407  7  +  .0030 

—  .009 

—  .0009      o 

.11            .36         .21 

1456 

8  Leporis 

3-9 

47    I-2S7 

74-8 

+  2.  5804+.  0014 

—  .OO2 

+  .0172-   5 

.07             .36         .14 

1457 

Br  848 

4-7 

47    2-S2S 

66.8 

+3-7705  +.0036 

—  .Ol6 

+  .0009      o 

.06            .26         .13 

1458 

BrSss 

5-i 

47  14.888 

77-4 

+  3-II5O+.OO26 

-.005 

.0000      o 

.11             .33          .16 

1459 

ft  Columbae 

3-o 

47  26.086 

77-9 

+  2.H36+.0033 

—  .OOI 

+  .0039+  4 

•07         -34      -13 

1460 

y  Pictoris 

4-4 

48    0.600 

86.3 

+  1.087  5  +  .0038 

-.003 

+  .0082—     2 

.14            .70         .22 

1461 

X  Orionis 

4.6 

48  27.634 

69-4 

+  3-55i8+.oo29 

—  .OI2 

-.0132-     I 

.06            .28         .13 

1462 

L  2052 

5-1 

48  37.488 

83.0 

+  I-3558+-oo32 

-.003 

+  .OOOI—     2 

.16            .82          .28 

1463 

L  2040 

7-3 

48  44.624 

94-o 

+  1.9092  +  .002  7 

—  .OOI 

+  .0025      o 

.13         I.IO        .22 

1464 

Br8S7 

6.1 

49    1.449 

72.0 

+  3-55I2  +  .0029 

—  .012 

+  .OOOI         O 

.10        .38      .18 

1465 

L  2041 

5-7 

49    8.604 

88.0 

+  2.  0445  +  .002  5 

—  .001 

+  .OO22         O 

.15           .75         .22 

1466 

L  2046 

7.0 

49  26.758 

86.8 

+  2.  OO86  +.OO26 

—  .OOI 

.0000      o 

.15            .72         .22 

1467 

A  Columbae 

S-o 

49  29.067 

82.3 

+  2.  1779+.  0025 

—  .OOI 

+  .OOOI         O 

.13        .86      .27 

1468 

a  Orionis 

Var. 

49  45-48i 

66.2 

+  3.  2474+.  0026 

—  .006 

+  .0019      o 

.02            .11          .05 

1469 

e  Doradus 

5-3 

49  59-792 

75-2 

—  o.o66o+.oo7o 

.000 

—  .0041       o 

.15             .62          .26 

1470 

Bruss  2371 

6.0 

50    3-647 

98.6 

+  2.  7975  +  .0024 

-.003 

+  .0039      o 

.15          1.  12         .20 

1471 

Pi  246 

7-i 

50  26.225 

74-7 

+  6.  2  206  +  .0098 

-.171 

+  .OOI9—     I 

.11            .52         .22 

1472 

8  Aurigae 

3-8 

Si  I7-596 

82.2 

+  4.9391  +  .0046 

-.063 

+  .0098—     2 

.04            .22          .08 

1473 

BrSsi 

6.8 

Si  25.573 

74-1 

+  5.  0028  +.0048 

-.066 

+  .0008-     2 

.13            .50         .22 

1474 

L  2067 

5-7 

Si  37-254 

88.8 

+  1.9503  +  .0026 

—  .001 

—  .0024      o 

.l6            .82          .24 

1475 

Br86a 

4-9 

Si  47-329 

73-2 

+  3.  7220+.  0028 

-•015 

—  .OOOI         O 

.09            .45         .19 

1476 

•n  Leporis 

3-7 

51  51.010 

71.6 

+  2.73i9+.oo24 

—  .002 

—  .O028+     I 

.05           .27         .12 

H77 

c  Columbae 

5-i 

52    3-458 

89.0 

+  2.0627  +  .0024 

—  .OOI 

+  .0018      o 

.IO           .62         .16 

1478 

ft  Aurigae 

1.8 

52  11.622 

70.8 

+  4.4007  +  .0036 

-•037 

—  .0044      o 

.03            .16         .07 

1479 

w  Aurigae 

4.6 

52  30.811 

78-3 

+  4.4529+.  0036 

-•039 

+  .0008      o 

.09           .39         .15 

1480 

<r  Columbae 

5-8 

52  35-154 

81.1 

+  2.2576+.OO24 

—  .OOI 

+  .0005      o 

.14           .70        .25 

1481 

L  2087 

5-4 

52  38.028 

83-1 

+  1.3  202  +  .0040 

-.003 

—  .0014+   4 

.18           .70        .26 

1482 

0  Aurigae 

2.6 

52  54-I32 

76-5 

+  4.0910+.  0028 

-.025 

+  .0045-  I 

.04            .22          .08 

1483 

Groomb  1055 

6.6 

53    0.148 

78.8 

+4.3863  +.0033 

-•035 

—  .0627      o 

.12            .54         .21 

1484 

Br869 

6.1 

53  12.798 

65-1 

+  3-II53  +  -°°22 

-.005 

+  .0003      o 

.12            .39         .21 

1485 

Pulkss  950  m 

6.0 

53  15-60° 

87.0 

+3.3742  +.0024 

-.008 

—  .0016      o 

.12            .62          .19 

1486 

L  2106 

4.6 

53  20.217 

76-9 

+  0.4563  +  .0080 

-.003 

+.0195+17 

.15            .64         .26 

1487 

Br  861 

5-9 

53  23-380 

65.6 

+4-5524+  -0034 

-.044 

+  .0018      o 

.15            .52        -.28 

1488 

Br  870 

5-3 

53  4i-o77 

82.1 

+  3.0842  +  .OO22 

-.005 

—  .0008      o 

.11            .36         .15 

1489 

L  2113 

7.0 

53  44-577 

86.0 

+0.2673  +.0053 

—  .002 

-.0043+    2 

.l8            .82         .27 

1490 

y  Columbae 

4-4 

53  59-488 

81.7 

+  2.  1263  +  .OO24 

—  .OOI 

—  .0003      o 

.08            .39         .14 

1491 

Br  872 

6-5 

54  15-725 

73-o 

+  2.8523  +  .0022 

-.003 

+  .0009      o 

.15            .62         .27 

1492 

Br  874 

5-3 

54  19-473 

66.2 

+  2.  8492  +  .002  1 

-.003 

+  .OO2O         O 

.13            .44         .23 

1493 

Pi  280 

6-3 

55    2.448 

72.0 

+  4.663  2  +  .0029 

-.048 

+  .0039-  I 

.11             .52          .23 

1494 

Pulk«  958 

4.8 

55    3-154 

90.0 

+  3.ooi6+.oo2o 

—  .004 

+  .OOII         O 

.08            .78         .17 

1495 

Br  871 

6.6 

55  39-282 

77-3 

+  3-6222  +  .OO22 

-.013 

—  .0008      o 

-lo        .33      .15 

1496 

L  2098 

6.0 

55  39-629 

83.8 

+  1.781  1  +  .0026 

—  .002 

+  .OOIO         O 

.15            .70        .24 

1497 

17  Columbae 

3-9 

56    5-156 

78.4 

+  1.8359+.  0025 

—  .OO2 

+  .0019      o 

.11            .50        .19 

1498 

Br  868 

6-3 

56    5-402 

65-6 

+  4-326o+.oo2i 

-•°34 

+  .OII3—     2 

.09           .32         .16 

1499 

Br  864 

6.6 

56  33-3i6 

80.8 

+  4.7  584  +.0024 

-•054 

+  .0015-  I 

.IO           .40        .16 

1500 

L  2114 

7-S 

5  56  40.816 

77-8 

+  1.407  5  +  .0028 

—  .OO2 

—  .OOI  I         O 

.16        .86      .32 

1465  Innes.     HM  10"  250°. 


1483  ft  1035.     n"  2"  335°;  9M  33"  328°- 


CATALOGUE  OF   6 1 88   STARS   FOR    IQOO 


61 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H/  and  i  oo  AH' 

Prob.  Errors. 
SEp.  100  /  8  10 

Remarks. 

MS* 

of               H 

-23    o    7.41 

77-8 

II                      It 

+    i.  282-.  365 

n 
—  ,OI 

n 
+  •033       o 

.11         .53      .20 

70  G  Leporis 

I4S2 

+  59  5i  SMS 

68.0 

+    1.  199-  .782 

"•OS 

—  .024      o 

.06        .22     .11 

31  Camelopardi 

H53 

+  55  41    1.07 

53-5 

+   i-I95--732 

-•°3 

+  .OI2         O 

.IO        .31      .20 

1454 

-   7  32  4i-7i 

71.8 

+   1.  173-  .422 

—  .OI 

—  .004      o 

.10      .40    .18 

55  Orionis 

U55 

+  14    846.85 

63-5 

+   I-I53-  -496 

—  .OI 

—  .Oil         O 

.IO        .40     .21 

137  Tauri 

1456 

-2053  15.11 

77-6 

+  0.482—  .378 

—  .OI 

-•653-     2 

•07      -33    -13 

1457 

+  27  35  19.13 

65.8 

+   1.  115-  .549 

—  .02 

—  .018      o 

.05        .22      .11 

136  Tauri 

H58 

+   i  49  5°-36 

75-2 

+   1.  104-.  454 

—  .OI 

—  .OI  I         O 

.11         .34     .16 

56  Orionis 

H59 

-35  48  21.23 

71.8 

+   i.  493  -.309 

—  .OI 

+  •394-    i 

.07        .32      .14 

1460 

—  56  ii  29.86 

85-3 

+  0.980—  .160 

—  ,OI 

-.068-    i 

.11        .59     ,l8 

1461 

+  20  15   27.30 

63-3 

+  0.915-.  516 

—  .OI 

-.094+   2 

.06        .22      .12 

54  Orionis  x1  Br.  856 

1462 

-52      754-46 

78.0 

+  0.905—  .198 

—  .01 

—  .090      o 

.13        .60     .23 

37  G  Pictoris 

1463 

-41      744-62 

91.8 

+    i.ooo—  .279 

—  .01 

+  .016      o 

.12        .83      .19 

1464 

+  19  43  48.46 

60.8 

+  0.938-  .518 

—  .01 

—  .022      o 

.09        .31      .18 

57  Orionis  x2 

1465 

-3739    8-87 

80.2 

+  0.922—  .298 

—  .01 

—  .027      o 

.13        .51      .20 

55  G  Columbae  * 

1466 

-3832  50-57 

81.8 

+  0.913-.  293 

—  .01 

—  .010      o 

.13        .57      .21 

Innes.     IIM  i'/3  122° 

1467 

-33  49  24.63 

71.9 

+  0.947  -.318 

—  .01 

+  .028      o 

.12        .63      .27 

1468 

+   7  23  18.41 

63.8 

+  0.904-.  474 

—  .01 

+  .008       o 

.02        .11      .06 

i"o  to  i^s? 

1469 

-6655  34.29 

75-7 

+  0.886  +.010 

—  .02 

+  .011+    1 

.12        .55      .22 

1470 

-ii  47  37.02 

93-7 

+  0.893—  .408 

.00 

+  .024-  I 

.14        .90     .20 

1471 

+  67    o  15.40 

74-2 

+  0.807  -.907 

-.04 

—  .029      o 

.08        .37      .15 

1472 

+  54  1637.39 

66.8 

+  0.635-.  721 

—  .02 

—  .126—    I 

.05        .I?      .09 

1473 

+  55  18  45.27 

61.8 

+  0.656—  .729 

—  .02 

-  .094      o 

.12         .37      .22 

H74 

-39  58  29.46 

82.4 

+  0.747-.  284 

.00 

+  .014      o 

.14         .57      .21 

60  G  Columbae 

1475 

+  25  56  29-44 

68.5 

+  0.7  14-  .543 

—  .01 

—  .004      o 

.08         .34      .16 

139  Tauri 

1476 

—  14  ii    9.48 

72.9 

+  0.845-  .398 

.00 

+  .132       o 

.06        .27     .12 

1477 

-37    8    6.70 

83.2 

+  0.675-.  301 

.00 

—  .020      o 

.IO       .49     .16 

1478 

+  44  56  14.48 

66.6 

+  0.678—  .641 

—  .01 

-.005+  I 

•03        .14     -07 

1479 

+  45  55  40.07 

74-8 

+  0.647—  .649 

—  .01 

—  .008      o 

.08        .30     .13 

1480 

-31  23  46.55 

75-6 

+  0.645  -.329 

.00 

-.003      o 

.14        .63     .26 

1481 

-52  39  27.20 

82.6 

+  0.884—  .192 

.00 

+  .240      o 

-15        -65     -23 

42  G  Pictoris 

1482 

+  37  12  20.19 

73-1 

+  0.531-.  597 

—  .01 

—  .090—    I 

.04       .20     .08 

OJ  545-  7^5  2'/5  345°  slow 

1483 

+  4435    6.06 

72.7 

+  0.570-  .639 

—  .01 

—  .042       o 

.10      .37    .17 

* 

1484 

+    i  49  37-25 

61.0 

+  0.582-.  454 

.00 

—  .012       o 

.10        .35      .20 

59  Orionis 

1485 

+  12  47  55.02 

82.6 

+  0.616—  .492 

—  .01 

+  .026      o 

.10      .55    .18 

O2  124.    6M2-8'!'o? 

1486 

—  63    7  12.60 

83-9 

+   1.129—  .069 

—  .01 

+  •546-   3 

.14        .75      .24 

36  G  Doradus 

1487 

+  47  53  44.15 

57-5 

+  0.557-.  664 

—  .01 

—  .021       o 

.12        .38      .23 

36  Aurigae 

1488 

+  o  32  37-45 

81.8 

+  0.553-.  449 

.00 

+  .OOI          O 

.10      .33    .14 

60  Orionis 

1489 

-64  2955.13 

80.8 

+  0.614—  .038 

—  .01 

+.067+  I 

.15        .63      .24 

37  G  Doradus 

1490 

-35  1738.14 

76-3 

+  0.528-.  310 

.00 

+  .OO2          O 

.08        .36     .14 

1491 

-   9  23  27.09 

72.7 

+  0.506—  .416 

.00 

+  .004      o 

.12        .49     .22 

i  Monocerotis 

1492 

-   9  33  54-13 

68.6 

+  0.443-.  416 

.00 

-  -°53      o 

.10      .40    .19 

2  Monocerotis 

1493 

+  49  54  15-40 

66.3 

+  0.389-  .680 

.00 

-.045-  I 

.11         .44     .22 

1494 

-   3    4  41-40 

88.0 

+  0.35  1  -.438 

.00 

—  .082      o 

.09        .69     .18 

1495 

+  22  23  53.28 

73-7 

+  0.355-  .528 

.00 

-.025      o 

.09        .30     .14 

141  Tauri 

1496 

-44    230.54 

79-8 

+  0.391—  .260 

.00 

+  .OI  I         O 

.13        .54     .21 

44  G  Pictoris 

H97 

-42  49  14.49 

79-o 

+  0.317—  .268 

.00 

-.025       o 

.IO        .49     .18 

1498 

+  42  5453-28 

61.0 

+    0.2OI—  .632 

.00 

—  .141—     2 

.08        .29     .16 

38  Aurigae 

1499 

+  51  3433-17 

73-3 

+    0.257-.  694 

.00 

—  .044      o 

.09        .26     .13 

35  Camelopardi  * 

1500 

-51  1343-58 

76-5 

+    0.301  -.205 

.00 

+  .OII         O 

.13        .69     .26 

1499  02  128.    8**  40"  13°;  comp.  is  a  close  double. 


62 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

[  R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.  and  100  A  ji 

Prob.  Errors. 
aEp.     loop     aio 

M 

h    m         s 

s               s 

s 

s 

«             //          // 

1501 

/i  Orionis 

4.2 

5  56  52-896 

69.4 

+  3.  3007  +  .0020 

-.008 

+  .OOI2          O 

.09         .32       .16 

1502 

K  Mensae 

5-7 

57    I-705 

78-5 

—  4.0604+.  0148 

+  .290 

-*•  .OO67  +  II 

.10        .64      .23 

1503 

Br  883 

4.8 

57    8-167 

70.8 

+  2.8224+.OO2I 

-.003 

+  .OOOI         0 

•14      .54    -25 

1504 

Br  878 

5-2 

57  32-171 

72.4 

+  3-55°9+  -0019 

—  .OI2 

+  .0003       o 

.08            .52         .21 

ISOS 

L  2108 

5-7 

57  38-8i7 

85.8 

+  2.I754+.OO22 

—  .OOI 

+  .0015       o 

.11             .62          .19 

1506 

Br873 

6.2 

57  51-921 

75-5 

+  4.3156+.  0016 

-•034 

—  .0025—     2 

.IO            .40         .17 

1507 

Br  881 

4.8 

57  58-849 

71.2 

+3-5631  +  .0019 

—  .OI2 

+  .0006      o 

.09            .42         .19 

1508 

Br88o 

4-3 

58    2.479 

69.4 

+  3.6464+.OOI7 

—  .OI4 

—  .OO06—     I 

.05            .27         .12 

ISOQ 

L  2123 

6.0 

58  28.511 

84-9 

+  1.4060+.  0029 

—  .002 

-*  .OO30+     I 

.18           .84         .28 

1510 

L2I33 

7-5 

59    2-986 

79-2 

+  0.9228  +  .  0030 

—  .OO4 

—  .O022+     I 

.15            .70        .26 

IS" 

Pi  327 

5-3 

59  I3-778 

79-5 

+  2.4154+.  0023 

—  .OOI 

+  .0031+     I 

.10        .56      .20 

I5« 

Pulkj,  972 

5-3 

59  21.912 

92.9 

+  2.  9146+.  OOI9 

—  .004 

—  .0006       o 

.13            .78         .19 

ISI3 

Pi  321 

6.0 

59  38-225 

92-3 

+  3-i997  +  .ooi8 

-.006 

+  .0004       o 

.13            .62          .17 

iSH 

Br  885 

5-9 

5941-3" 

84-5 

+  3.  1694+.  0018 

—  .006 

—  .0002      o 

.06            .46         .13 

1515 

Br882 

5-7 

5  59  41.456 

78.9 

+  4.i362  +  .ooi4 

-.027 

+  .OOII—     I 

.11             .39         .I? 

1516 

Br  890 

5-i 

6    o  31.398 

70.7 

+  2.6772+.OO2O 

—  .002 

+  .OO02          O 

•13         -54       -25 

151? 

L  2124 

5-9 

037.166 

82.8 

+  2.  2316+.  0024 

—  .OOI 

—  .OOOI+     I 

.18      1.36      .41 

1518 

Br  884 

7-i 

o  42.888 

70.8 

+  3-6583  +  -0015 

—  .014 

+  .0008      o 

.11             .44         .20 

1519 

Br  889 

6.0 

o  43-712 

73-7 

+  2.832I  +  .OO2O 

-.003 

+  .OOH       o 

.13       .69     .28 

1520 

Br876 

5-5 

i    9.722 

76.6 

+  5.  297  1  +  .0003 

-.086 

+  .005  1       o 

.09      .36    .15 

1521 

L  2137 

6.6 

i  35-741 

79-7 

+  1.7262  +  .OO3O 

—  .002 

—  .0080+  3 

.11      .51     .19 

1522 

6  Leporis 

4-7 

137.771 

61.5 

+  2.7i56  +  .oo2o 

—  .002 

—  .0005       o 

.11             .39         .22 

1523 

PulkM  981 

5-5 

i  41.269 

92-3 

+  2.9749+.  0018 

—  .004 

+  .0003       o 

.13            .78         .I9 

1524 

L  2141 

6.1 

i  47-584 

80.4 

+  1.7251  +  .0030 

—  .002 

-.0072+   3 

.14           .58         .22 

1525 

v  Orionis 

4-4 

i  5I-73i 

79-7 

+3.4256+.  0015 

—  .OO9 

+  .0006       o 

.03            .20         .06 

1526 

Br  894 

6.8 

2   10.991 

74-8 

+  2.8087  +  .0019 

-.003 

+  .0001       o 

.13        .66      .27 

IS27 

L  2145  m 

6.9 

2    II.3II 

80.9 

+  1.5528+.  0023 

—  .OO2 

—  .0117       o 

.18        .92      .32 

1528 

L  2130 

5-9 

2  14.536 

88.2 

+  2-3IO8+.OO2I 

—  .001 

+  .OO22          O 

.11        .90      .23 

1529 

Pi  342 

5-7 

2  21.869 

84.6 

+  2-5OI4+.OO2O 

—  .OOI 

—  .0009       o 

.12            .68         .21 

IS30 

Br87S 

5-5 

2  47-454 

81.2 

+  6.0392—  .0021 

-•152 

+  .0019—    I 

.06      .39    .13 

1531 

Br  898 

5-7 

3  20.653 

75-7 

+  2.6O96+.OO2O 

—  .002 

+  .0014      o 

.12            .52         .22 

1532 

L  2142 

6.2 

3  27-507 

83-3 

+  2.l6o5  +  .OO22 

—  .OOI 

—  .0003       o 

.14           .§2         .26 

IS33 

L  2154 

6-5 

3  35-609 

83.6 

+  I.854O+.OO22 

—  .OOI 

—  .0030       o 

.14           .69         .23 

1534 

Br  891 

6.0 

3  39-652 

58.6 

+  3.6442  +  .001  1 

—  .014 

+  .OOII         0 

•13       -45      -27 

1535 

Dpt  685 

6.4 

3  44.705 

76.0 

+3.  1300+.  0016 

-.005 

—  .0010      o 

•IS        -75      -30 

1536 

Br  886  S  * 

6-3 

3  56.951 

64.4 

+  4-597  2  -.0004 

-•045 

+  .OO22—     I 

.11             .40         .22 

IS37 

6  Columbae 

5-4 

4    5-906 

80.2 

+  2.0567  +  .OO22 

—  .OOI 

+  .OOOI          O 

.10        .45      .16 

1538 

Paris  7344 

5-6 

4  45.644 

96.8 

+  2.52i6+.ooi9 

—  .002 

+  .0003       o 

.13      i.oo      .18 

1539 

L  2164 

5-7 

4  46.544 

90.2 

+  I.863I  +  .OO22 

—  .OOI 

—  .0003       o 

.12            .72          .19 

1540 

Cord  7358 

5-9 

5    2.075 

99-6 

+  2-7226+.OOI9 

—  .002 

—  .0025       o 

.14         1.46        .21 

IS4I 

Br  896 

6.1 

5  24-327 

68.3 

+3.  6801  +.0008 

—  .014 

+  .0005       o 

.10        .42       .20 

1542 

Lai  11784 

6.0 

5  36.080 

97-9 

+  2.5i93  +  .oo2i 

—  .OOI 

+  .0074+  I 

.14      1.18      .20 

1543 

L  2174 

6-5 

5  37-963 

86.4 

+  I.7644  +  .OO22 

—  .002 

—  .0024       o 

.16           .78         .25 

1544 

L  2203 

6.0 

6    2.317 

82.5 

+  0.0683  +  .0013 

—  .OOI 

+  .0003+  I 

.13            .70        .23 

1545 

Br  900 

6.0 

6    5-941 

7i-5 

+3-5541  +  .0009 

—  .012 

+  .0004       o 

.12            .46         .21 

IS46 

Brisb  1172 

5-i 

6    8.595 

86.4 

+  0.5480+.  OOI2 

-.003 

+  .OO28—     2 

.14           .87         .25 

1547 

L  2512 

7-i 

6    9-51- 

80.3 

-I5-735—  -"7- 

—  .026-       o 

.06           .52         .17 

1548 

£  Orionis 

4-4 

6  I5-259 

63.1 

+  3.4ii8  +  .oon 

—  .009 

+  .0006      o 

.12            .40         .22 

1549 

Br  899 

6-5 

6  15-383 

67-7 

+  3.  6392  +  .0008 

—  .014 

+  .0017       o 

.13            .52         .26 

IS50 

Br  901 

5-i 

6    6  17.276 

74.0 

+  3-4597  +  -OOIQ 

—  .010 

+  .0004       o 

.13            .45         .21 

1503  p  16.  9**  i' 


1524  h  3834.  9*  3'.'7  225°. 


CATALOGUE  OF  6 1 88  STARS  FOR  1 900 


No. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3dt 

(i'andioo  AH 

Prob.  Errors. 
SEp.  100  f.'  8  10 

Remarks. 

1501 

0             /                 // 

+  9  38  50.26 

73-2 

//          // 

+  0.244—    -481 

// 
.00 

it 
—  .029      o 

//                 //              // 

.08      .38    .16 

1502 

-79  22  43.42 

81.6 

+  0.317+    .593 

-.04 

+.057+  I 

.09      .59    .19 

1503 

-i°3S  57-03 

69.0 

+  0.257-    .411 

.00 

+  .006       o 

.11      .41    .20 

3  Monocerotis  * 

1504 

+  19  41  31.81 

69-5 

+  0.187-   -5l8 

.00 

—  .028      o 

.07      .36    .16 

64  Orionis 

1505 

-33  5444-86 

77-3 

+  0.186—    .317 

.00 

—  .020         0 

.12         .53      .21 

67  G  Columbae  (<£) 

1506 

+  42  59  21.35 

7i-5 

+0.042—    .629 

.00 

-.145      o 

.09         .35      .16 

39  Auriga 

ISO? 

+  20    8  26.67 

68.6 

+  0.164-    .519 

.00 

-.013      o 

.08         .36      .17 

62  Orionis  x2  (x*) 

1508 

+  23  16    7.36 

63-5 

+  0.063-    .532 

.00 

-.108      o 

.06         .22      .12 

i  Geminorum 

1509 

-51  13  11.92 

80.4 

+  O.2II  —     .205 

.00 

+  .078       o 

.14         .6l      .23 

45  G  Pictoris 

1510 

-58    611.56 

77-8 

+  O.II2—     .134 

.00 

+  .029      o 

.13         .57      .22 

15" 

—  26  17    2.19 

81.0 

+  O.I62-     .353 

.00 

+  .095      o 

.10     .47    .17 

1512 

—   6  42  16.79 

89.2 

+  0.047-     -425 

.00 

—  .009      o 

.12         .64      .l8 

1513 

+  5  25  32.18 

84.9 

+  0.035-     .467 

.00 

+  .003      o 

.12         .46      .17 

63  Orionis 

I5M 

+  4    951-57 

80.  i 

+  0.015—     .462 

.00 

—  .012       o 

-06         .35      .12 

66  Orionis 

I5i5 

+  38  29  29.92 

76-3 

—  0.027—    -6°3 

+  .01 

-  -054      o 

.10      .36    .16 

40  Aurigae 

1516 

-  16  28  39.39 

70.2 

-0.045-   -39° 

.00 

+  .OOI         O 

.11         .40      .19 

17  Leporis 

1517 

-32  10  11.63 

79.1 

+0.069-   -325 

.00 

+  .123       o 

.20      1.97      .64 

72  G  Columbas 

1518 

+  23385i-55 

62.6 

-0.076-    .533 

.00 

—  .014      o 

.10         .37      .20 

2  Geminorum 

1519 

-1014    9.49 

73-o 

-0.048-   .413 

.00 

+  .016      o 

.IO         .51      .21 

1520 

+  585655.26 

70.6 

-0.082-   .773 

+  .01 

+  .020—     I 

.08         .27      .13 

37  Camelopardi 

1521 

-45    2  10.38 

78.0 

+  0.089—   -25° 

.00 

+  .229+  I 

.09         .45      .17 

i  G  Puppis 

1522 

-H5534-30 

65.1 

—  o.i  20—   .396 

.00 

+  .023      o 

.11         .38      .20 

1523 

-   4  ii    1.31 

89-3 

-0.154-    .434 

.00 

—  .006      o 

.12        .67      .18 

1524 

-45    441.71 

79-o 

+0.087—   .250 

.00 

+  .244+  I 

.12        .50     .20 

2  G  Puppis  * 

1525 

+  14  46  49.30 

78.5 

-0.199-   .499 

.00 

—  .036       o 

.03        .I9     .07 

1526 

—  ii    9  45.60 

73-4 

-0.197-    -409 

.00 

—  .006      o 

.11         .43      .19 

1527 

-48  2656.99 

75-o 

•—0.225—    -225 

.00 

-•°34+     2 

.14        .63      .26 

3  G  Puppis  * 

1528 

—  29  44  50.68 

84.6 

-0.238-    .337 

.00 

—  .042       o 

.11         .75      .22 

74  G  Columbae 

1529 

-23    557-22 

83.6 

-0.225-    -364 

.00 

—  .018      o 

.IO         .49      .l6 

89  G  Leporis 

1530 

+  65  44  17.96 

73-2 

—  0.271—    .880 

+  .02 

—  .027      o 

.06         .24      .11 

36  Camelopardi 

i53i 

-  19    9  14.45 

77.0 

-0.232-    .380 

.00 

+  .060      o 

.IO         .44      .l8 

19  Leporis 

1532 

-34  17  57-49 

73-4 

-0.302-    .315 

.00 

.000      o 

.13         .63      .26 

76  G  Columbae 

1533 

—  42  17  10.94 

82.8 

-0.327-    .270 

.00 

-.013      o 

.13         .63      .22 

78  G  Columbae  ir1 

1534 

+  23    746.64 

58.0 

-0-333-    -S31 

.00 

—  .013      o 

.IO         .41      .24 

3  Geminorum 

1535 

+   2  30  55.76 

65.6 

-0.350-    -456 

.00 

—  .022          0 

.11         .46      .23 

28557M4  29'.'S  113° 

1536 

+  48  43  52.61 

58-4 

—  0.407—    .670 

+  .02 

—  .062       o 

.09         .36      .21 

41  Auriga;  * 

1537 

-37  14  19-82 

71.8 

-0.362-    .300 

.00 

—  .004      o 

.10      .39    .18 

1538 

-22  2434.71 

94-8 

-0.467-   .367 

.00 

-.051       o 

.14         .94      .20 

94  G  Leporis 

1539 

-42    8  17.58 

85-4 

-0.433-    -272 

.00 

—  .015       o 

•ii      -53    -17 

80  G  Columbse  (Tr2) 

1540 

-1434    4.00 

96-5 

-0.389-   .396 

.00 

+  .051      o 

.15    1.43    .24 

96  G  Leporis 

iS4i 

+  24  26  32.17 

65-4 

-0.529-   .536 

+  .01 

—  .056      o 

.09      .37    .19 

5  Geminorum 

1542 

-  22  45  26.44 

97.0 

-0.396-    .368 

.00 

+  .094—  I 

.15    1.08    .21 

97  G  Leporis 

IS43 

—  44  20  20.87 

77-9 

—  0.482—    .256 

.00 

+  .OII         O 

•13      -53    -2i 

7  G  Puppis 

1544 

—  66    i  32.07 

82.4 

—  0.503—    .010 

.00 

+  .025      o 

.11         .63      .21 

38  G  Doradus  V 

1545 

+  19  48  46.10 

66.2 

-0.547-    .518 

+  .01 

—  .014      o 

.11         .42      .21 

68  Orionis 

1546 

-62    8  11.53 

87.4 

—  0.608—    .080 

.00 

—  .071      o 

.12         .83      .22 

47  G  Pictoris 

1547 

-855S52-97 

82.4 

-0.538  +  2.297 

+  .001+  4 

.06         .44      .14 

6  G  Octantis 

1548 

+  14  13  52-66 

62.1 

-0.581-    .497 

+  .01 

-  -034      o 

.11         .36      .20 

1549 

+  2255  51.90 

66.7 

-0.561-    .530 

+  .01 

—  .014      o 

•  ii      -47    -23 

6  Geminorum 

iSSo 

+  16    9  11.08 

70.8 

-0-573-    -5°4 

+  .01 

—  .023       o 

.12         .42      .20 

69  Orionis  /* 

1527  Dunlop.     7?6~7*?8  i'/7  40°;  slow  binary. 


1536X845.     7l"S  7'.'6  355° 


64 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

H.  and  100  Ap 

Prob.  Errors. 
uEp.     loop,     a  10 

M 

h    m         s 

s               s 

s 

s 

tr                   n               n 

iSSi 

Pi  17 

6.0 

6    635.899 

82.2 

+  2.  3871  +  .OOI9 

—  .OOI 

—  .0007      o 

.14        .66      .23 

1552 

Br  888 

5-8 

6  41.608 

71.4 

+  5-3945-  -0034 

--OQ3 

+  .0058       o 

.10            .46         .21 

1553 

L  2182 

5-6 

6  56.699 

91.0 

+  1.9339+.  0023 

—  .OOI 

—  .0042+   I 

.IO            .62          .15 

1554 

Pulkjj  999 

5-2 

6  59.816 

86.8 

+  2.  9189+.  OOl6 

—  .004 

—  .0006       o 

.11             .63          .18 

1555 

L  2191 

6.4 

7  47-412 

86.4 

+  1.7234+.  0021 

—  .002 

—  .OOI  I          O 

.13            .69         .21 

1556 

Pi  335 

4-7 

7  49.688 

80.  i 

+  6.6197—  .OIO2 

—  .220 

+  .0023—   6 

.04        .30      .10 

1557 

Groomb  1004 

6.9 

8    2.87- 

72.4 

+  26.698--.  351- 

+  .030  —  196 

.06            .40         .l6 

1558 

8  Pictoris 

4-9 

8  21.005 

76.6 

+  I.I662  +  .OOl8 

-.003 

—  .0025      o 

.11             .54         .21 

1559 

Arm  767 

6.0 

8  38.135 

95-9 

+  3-5053  +  -0007 

—  .on 

+  .0007       o 

.13        .88      .18 

1560 

Br893 

5-5 

8  41-639 

69.1 

+  5-5375-  -0051 

-.105 

+  .0006      o 

.10        .33      .17 

1561 

17  Geminorumr 

>•%& 

8  50.481 

73-8 

+3.  62  20  +.0005 

—  .014 

-  .0045      o 

.03       .16     .07 

1562 

Arm  1402 

8.0 

8  54.166 

86.3 

+4.0464—  .0005 

—  .024 

—  .0025      o 

.16        .86      .26 

1563 

Br  904 

7-4 

8  54.680 

84.1 

+4.0439-  .0005 

—  .024 

-.0051       o 

.12            .46         .17 

1564 

Br  911 

5-3 

8  57.826 

75-2 

+  3.5302  +  .0003 

—  .on 

—  .0069—    I 

.09           .39         .16 

1565 

K  Aurigae 

4-5 

9    0-372 

61.3 

+  3.8241—  .0004 

-.018 

—  .0049—     2 

.07            .32         .17 

1566 

v  Doradfis 

5-3 

9  22.764 

83-4 

—  0.3852—  .0008 

+  .005 

—  .0109+     2 

.14           .69         .23 

1567 

Pulks,  1005 

6.0 

9  28.053 

99-3 

+  3.4050+.  0008 

—  .009 

+  .0027       o 

.12            .72         .15 

1568 

Br9i3 

5-4 

9  39-I38 

79-4 

+  3.4600+.  0007 

—  .010 

+  .0004      o 

.12            .38         .16 

1569 

Pulkjs  1007 

6.0 

9  40.067 

96.1 

+  2.  9663  +  .00  1  4 

—  .004 

.OOOO         0 

.14           .90        .19 

1570 

Br  920 

4.2 

9  58.699 

77-i 

+  2.  9260+  .OOI5 

—  .004 

—  .0003      o 

.07            .32         .12 

iS7i 

Brgos 

6.9 

10    7.456 

75-8 

+  4.4728—  .0019 

-•039 

—  .0044      o 

.11            .42         ,l8 

1572 

Br  916 

5-6 

10    7.956 

62.9 

+  3.37i2  +  .ooo8 

-.008 

+  .0008      o 

.11            .39         .21 

1573 

Br  914 

6.4 

10  12.431 

70.1 

+  3.6656  +  .OOO2 

—  .014 

—  .OOI2         O 

.15            .48         .24 

1574 

PulkM  1015 

5-9 

10  29.136 

96.1 

+  3.0503+.  ooio 

-.005 

—  .OIIO—     I 

.13            .98         .19 

1575 

Br  902 

4-5 

10  48.024 

79-9 

+  5.  2976-  .0054 

-.086 

—  .0007       o 

.05            .26         .09 

1576 

Br  908 

6.7 

10  49-458 

78-3 

+  4.4751-.  0025 

-•039 

+  .OOO9—     2 

.IO           .40        .16 

1577 

Br  919 

5-3 

10  49-697 

72.5 

+  3.3694+.  ooio 

-.008 

+  .OO60+     I 

•08           .33         .15 

1578 

Brgi? 

6-S 

10  52.693 

82.6 

+  3.66i3  +  .oooi 

—  .014 

+  .0009      o 

.12             .39         .16 

1579 

i}  Doradfis 

4-9 

ii    2.057 

75-3 

+  0.1298  +  .0004 

—  .OOI 

—  .0044+  4 

.14        .68      .27 

1580 

Pulkjj  1  020 

5-i 

ii    9.981 

96.7 

+  2.7478  +  .  0016 

—  .002 

+  .0005      o 

.14      i.oo      .19 

1581 

Br  921 

5-5 

"  3S-845 

77-7 

+  3  -3°7  4  +-0007 

-.007 

+  .OOO2         O 

.10        .34      .15 

1582 

Pi  49 

6.0 

ii  58.268 

85.6 

+  3.i764+.ooi2 

—  .006 

-.0158+     I 

.14        .96      .27 

1583 

Pi  43 

7.0 

12      4.781 

62.4 

+  3.7606-  .0004 

—  .016 

+  .0009—     I 

.15        .60      .32 

1584 

Br  922 

6.9 

12  48.813 

84.2 

+  3.6564-  .0001 

-.013 

—  .0001      o 

.13        .40      .16 

1585 

Br  906 

7-5 

12  52.499 

72.2 

+  5-5636-  -0087 

—  .107 

+  .0021—    3 

.11            .48         .21 

1586 

Br927 

7.2 

12  53.050 

83-7 

+  2.8196  +  .  0015 

-.003 

—  .0009      o 

.08           .46         .15 

1587 

K  Columbae 

4-5 

12  59.646 

74-7 

+  2.I336  +  .OO2I 

—  .OOI 

—  .0007+   I 

.IO           .48         .20 

1588 

Br  910  m 

6.2 

13  11.100 

68.8 

+  5.  3301  -.0070 

-.089 

+  .0003      o 

.12             .54         .26 

1589 

a  Mensas 

5-2 

13  "-994 

87-3 

-1.7838-  .0144 

+  .054 

+  .0273-19 

.15        .86      .24 

1590 

Br  923 

7-3 

13  H-OSS 

81.8 

+  3-653  1-  -0002 

-.013 

+  .0004      o 

•13        -39      -i? 

i59i 

Lai  12060 

5-5 

13  14.728 

97.6 

+  2.6692  +  .0016 

—  .002 

—  .0009      o 

.14      1.08      .19 

1592 

L  2217 

5-7 

13  37-050 

87.6 

+  2.  0408  +.OO2  1 

—  .OOI 

—  .0004+   I 

.15            .75         .22 

1593 

Br  915 

5-5 

13  38-685 

78.6 

+  4.8785-.  0052 

-•059 

+  .0034-     2 

.10       .44      .17 

1594 

Lai  12085 

5-5 

13  54.824 

96-3 

+  2.5876+.  0017 

—  .002 

—  .OOI  I         O 

•15         I-°5         -21 

1595 

Pulkj,  1032 

5-8 

14    5-256 

94-7 

+  2.8536+.  0014 

-.003 

+  .0009      o 

.13        .86      .19 

1596 

PulkM  1030 

6.0 

14  22.039 

92.0 

+  3.  42  1  3  +  .0003 

-.009 

—  .0008      o 

.13     .72    .18 

1597 

Paris  7598 

5-9 

14  42.600 

96-3 

+  2.  5628+.  0017 

—  .002 

—  .0007       o 

.14         I.I4         .21 

1598 

Br  928 

5-3 

1453-779 

74.0 

+  2.  8896  +.00  1  3 

-.003 

—  .0005      o 

.11            .51         .21 

1599 

PulkM  1034 

5-3 

1459.127 

94.6 

+  3.0041  +  .001  1 

—  .004 

—  .0006       o 

.13        .88      .19 

1600 

L  2228 

6.0 

6  16    4.837 

85-9 

+  2.i6i6+.ooi9 

—  .OOI 

+  .0005       o 

.15        .88      .26 

1588  S  881.    8M  o'.'g  104°,  slow. 


CATALOGUE  OF  6 1 88  STARS  FOR  1900 


No. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3, 

|i'  and  ioo  Ap. 

Prob.  Errors. 
SEp.  loop.'  Sio 

Remarks. 

1551 

o        /          // 

-27  755-05 

80.0 

-   0.623  -.347 

n 

.00 

n 
—  .046      o 

it         it       n 

.13         .6l      .22 

loo  G  Leporis 

1552 

+  60    I  36.49 

63.5 

—   0.606—  .787 

+.03 

—  .021—   I 

.09         .28      .16 

40  Camelopardi 

1553 

—  40  20    6.85 

85-2 

-   0.554-  .281 

.00 

+•053+  I 

.11         .50      .I? 

82  G  Columbae 

1554 

-  6  31  38.93 

83-4 

—   0.622—  .425 

+  .01 

—  .010      o 

.10      .56    .18 

1555 

-45  15  34.93 

82.4 

—   0.680—  .250 

.00 

+  .OOI         O 

.11         .51      .18 

9  G  Puppis 

1556 

+  69  21  18.57 

76-3 

-   0.794-  .964 

+  .06 

—  .109      o 

.04         .26      .IO 

22  H  Camelopardi 

1557 

+  86  45  36.42 

67.0 

—  0.800—3.894 

-.097-   4 

.08         41      .19 

1558 

-  54  56  46.96 

76.9 

-   0.738-.  169 

.00 

—  .008      o 

.10      47    .18 

1559 

+  17  56    4.79 

93-7 

—   0.782—  .510 

+  .01 

—  .027      o 

.12      .75    .17 

1560 

+  61  32  51.69 

61.1 

—   0.763—  .806 

+  .04 

-.003      o 

.09      .23    .14 

i  Lyncis 

1561 

+  22  32      9-OI 

69.6 

-   0.790-  .526 

+  .01 

-.017+  I 

.03      .18    .08 

3  1008.  gM  i"2Qi°;  slow  binary 

1562 

+  36  10  32.41 

81.5 

-   0.796-  .589 

+  .02 

—  .017      o 

.13      .79    .26 

I 

>>      ft  T  1                  T   T  "       0  T    1  O 

1563 

+  36  10  41.94 

72-5 

-   0.779-  .588 

+  .O2 

.000+   I 

.09      .33    .16 

[  2t  072.       II       217 

J 

1564 

+  19  II   25.21 

74-7 

-   0.985-.  513 

+  .01 

—  .201+   I 

.08      42    .17 

71  Orionis 

I56S 

+  2932      5.81 

57-2 

-    1.054-  .556 

+  .01 

-.266+  I 

.06      .25    .14 

1566 

—  68  49  18.94 

85.0 

-   0.788+.  058 

.00 

+  .032+    2 

.12        .63      .20 

1567 

+  13  52  50.76 

93-9 

—   0.817—  .496 

+  .01 

+  .OII         O 

.13        .60     .16 

1568 

+  16  10  26.11 

74-9 

—   0.864—  .504 

+  .01 

—  .020      o 

.11         .34     .16 

72  Orionis/2 

1569 

-   4  32  20.51 

90.7 

-   0.833-.  432 

+  .01 

+  .OI2         O 

.13        .69     .19 

£566  IIM  i  '.'8  210° 

1570 

-   6  14  38.87 

76.6 

—   0.893  -.426 

+  .01 

—  .02  1      o 

•07      -35    -i4 

5  Mon.,  Gould  has  y 

1571 

+  46  27  26.44 

71.7 

—   0.872—  .651 

+.03 

+.013+  I 

.10      .37    .17 

42  Aurigae 

1572 

+  12  34  56.41 

60.4 

—   0.898—  .491 

+  .01 

—  .012       o 

.09      .34    .19 

73  Orionis  (k1) 

1573 

+  24    o    8.12 

65-5 

-   0.916-  .533 

+  .02 

—  .024      o 

.13      45    -24 

8  Geminorum 

1574 

—  o  28  27.80 

92.9 

—     1.  1  2  1—  .442 

+  .01 

—  .204+    2 

.12         .79      .l8 

1575 

+  59    2  49.75 

72-4 

-    0.923-.  771 

+.05 

+  .O2I         O 

.05         .18      .08 

2  Lyncis 

1576 

+  46  23  57.73 

74-2 

-     1.079-  .652 

+.03 

-•133      o 

.09         .34      .15 

43  Aurigae 

1577 

+  12  18    0.38 

68.1 

-    0.754-  .491 

+  .01 

+  .193-     I 

.08         .29      .14 

74  Orionis  k  (and  k2) 

1578 

+  23  46  28.97 

76.1 

-  0.955-.  533 

+  .02 

—  .004      o 

.11         .32      .15 

9  Geminorum 

1579 

-65  33  56-48 

79.1 

—  0.857—  .018 

.00 

+.108+  I 

•13         -63      -23 

40  G  Doradus  if 

1580 

-  13  41    7.67 

-  0.977-.  400 

+  .01 

—  .001      o 

.14        .90     .21 

1581 

+  9  58  44.17 

73-3 

—   1.077—  .481 

+  .01 

-.063      o 

.09        .28     .14 

75  Orionis  I 

1582 

+  57  52.47 

83-5 

—  0.890—  .460 

+  .01 

+  .157+    2 

.12         .75      .23 

1583 

+  27  14  56.26 

54-0 

-    1.  132-.  547 

+  .02 

—  .076      o 

•13         -52      .32 

1584 

+  233831.07 

73-3 

+  .02 

-.015       o 

.11         .30      .l6 

10  Geminorum 

IS8S 

+  61  48  20.96 

69.1 

-    i.  228-  .810 

+  .06 

—  .102      o 

.IO         .37      .l8 

3  Lyncis 

1586 

—  10  41  17.76 

78.8 

—    1.147—  .410 

+  .01 

—  .021       o 

.08         4O      .15 

6  Monocerotis 

1587 

-35    625.76 

69.2 

—    1.061—  .310 

+  .01 

+  .075       o 

.10      .43    .20 

1588 

+  59  2453-7I 

58.0 

-   I-H7--775 

+  .06 

+  .006      o 

.10         .33      .20 

4  Lyncis  * 

1589 

-7443    7.40 

87.0 

-   1.370+.  256 

+  •03 

-.215-   4 

.12         .71      .20 

1590 

+  23  3032.07 

77-7 

-    1.  167-.  531 

+  .02 

—  .010      o 

.12         .36      .17 

ii  Geminorum 

1591 

—  16  46  42.85 

92.7 

-    1.  167-.  388 

+  .01 

—  .009      o 

.16         .93      .23 

Cord  7588 

1592 

-37  42    9.57 

82.0 

—   1.117—  .296 

+  .01 

+  -073       o 

.13         .56      .20 

36  G  Columbae 

1593 

+  53  2951.40 

71.4 

—   1.287—  .710 

+.05 

-.094      o 

.09         .28      .14 

45  Aurigae 

1594 

-1955  41.29 

96-7 

-   1.215-.  376 

+  .01 

+  .OOI         O 

.17      1.  2O      .23 

13  G  CanisMin 

1595 

-   9  20  57.81 

92.8 

-   1.273-415 

+  .01 

—  .042      o 

.13         .75      .18 

1596 

+  1441  36.05 

88.4 

-   1.271-497 

+  .02 

—  .015      o 

.12        .58     .I? 

IS97 

-2053    5.16 

93-7 

-   i.  283-  .372 

+  .01 

+  .003      o 

.15      I.O3      .22 

1598 

-   7  46  51.45 

70.8 

-   1.304-420 

+  .01 

—  .002      o 

.09        .37      .17 

7  Monocerotis 

1599 

-   2  54    7.69 

91.0 

-    1.309-436 

+  .O2 

+  .OOI         O 

.12        .71      .18 

1600 

—  34  21    12.08 

74.0 

-    1410-.  314 

+  .01 

—  .005       o 

.13        .6l      .26 

88  G  Columbae 

66 


PRELIMINARY   GENERAL  CATALOGUE   OF   STARS   FOR    1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  100  A  n 

Prob.  Errors. 
aEp.     ioo)i     a  10 

M 

h    m        s 

s               s 

s 

s 

//            //          // 

1601 

f  Canis  Maj 

3-° 

6  16  28.474 

80.6 

+  2.  3027+.  0019 

—  .OOI 

+  .0006       o 

.06        .28      .10 

1602 

L  2233 

7.0 

16  30.274 

86.4 

+  1.9762  +  .OOI9 

—  .OOI 

+  .0004       o 

.13            .75         .22 

1603 

Pulkjs  1039 

5-7 

16  45-095 

93-o 

+  2.7939+.  0014 

-.003 

—  .0018       o 

.12            .84         .19 

1604 

ft.  Geminorum 

3-° 

16  54.661 

69-5 

+  3.6306—  .OOOy 

-.013 

+  .0044—   I 

.03            .15          .07 

1605 

L  2234 

5-8 

16  59.168 

86.1 

+  2.  1699+.  OOI9 

—  .OOI 

—  .OOOI          0 

•15             -84         -25 

1606 

Br  926 

5-o 

17  11.826 

83.1 

+  4.6252—  .OO50 

-•045 

+  .0013      o 

.06            .28         .IO 

1607 

Groomb  1149 

5-7 

17  59-379 

84.0 

+  5.0717—  .0080 

—  .070 

—  .0013       o 

.15             .50         .20 

1608 

Br  925 

5-5 

18    5.123 

78.2 

+  5-2445-  -0094 

—  .082 

+  .0004      o 

.08            .45         .l6 

1609 

/3  Canis  Maj 

1.8 

18  17-755 

75-7 

+  2.6414+.  OOl6 

—  .002 

—  .0005       o 

.04            .20         .08 

1610 

8  Columbae 

3-9 

18  27.507 

84.2 

+  2.i9i4+.ooi8 

—  .OOI 

—  .0030       o 

.10        .51      .17 

1611 

Br  931 

4-5 

18  28.143 

85-9 

+  3-  1797  +  .0006 

—  .006 

—  .0008      o 

.05            .40         .11 

1612 

Pi  78 

6.7 

18  34-174 

75-7 

+  3.6970—  .001  1 

—  .014 

+  .0006      o 

.15            .62          .26 

1613 

L  2252 

7-9 

19  28.288 

91.0 

+  2.2742  +  .OOI8 

—  .OOI 

—  .0014      o 

.13             .75          .20 

1614 

Pulkjs  1045 

5-5 

19  30-453 

93-5 

+  2.7985  +  .ooi2 

-.003 

-  -0035      o 

.12        .86      .19 

1615 

Br  934 

6.9 

19  42.623 

82.4 

+  3.6018—  .0009 

-.013 

—  .0004      o 

.12            .39        .16 

1616 

L  2250 

6.0 

I952-I75 

96.4 

+  2.  4368  +.0017 

—  .001 

+  .0002       o 

.14         1.23         .22 

1617 

L  2265 

5-8 

20  32.874 

86.9 

+  2.  0796+.  OOI9 

—  .001 

—  .0022       o 

.10        .57      .17 

1618 

Pi  112 

7.0 

20  38.072 

91.4 

+  2.0795  +  .0018 

—  .OOI 

—  .0026      o 

•13        -75      -19 

1619 

v  Pictoris 

S-9 

21      8.772 

84.1 

+  i.o7o6  +  .ooo2 

-.003 

-.0052-  I 

.15      .70     .24 

1620 

L  2276 

6.5 

21  29.805 

85.6 

+  1.9460  +.00  1  8 

—  .OOI 

—  .0008      o 

.15     .72    .23 

1621 

Lai  12343 

6.0 

21  35-734 

98.6 

+  3.0391  +  .0007 

—  .005 

+  .0004      o 

.14         1.  12          .19 

1622 

a  Carinse 

0- 

21  43-93° 

65-4 

+  1.3313  +  .0009 

-.003 

+  .0017      o 

.05            .27          .13 

1623 

Br  940 

6.8 

21  48.985 

69.0 

+  3-5771-  .ooii 

—  .012 

—  .0020      o 

.11             .46         .22 

1624 

Br  941 

6.4 

21  59.818 

78.2 

+  3.5691—  .0010 

—  .012 

—  .002  1      o 

.11             .45          .18 

1625 

Br  945 

7.2 

22      3.688 

72.2 

+  2.9737  +  .0008 

—  .004 

+  .0013      o 

.14        .68      .29 

1626 

Br  943 

5-4 

22      5.66l 

87.0 

+  3.  0808  +  .0006 

-.005 

+  .0001       o 

.12        .45      .16 

1627 

Br  930 

6.1 

22      6.079 

73-4 

+  5.2196—  .0130 

-.080 

—  .0012—   8 

.08        .30      .13 

1628 

Pulkss  1053 

5-9 

22      6.607 

93-7 

+  3.I383  +  .°oo4 

—  .006 

—  .0030      o 

.13        .82      .19 

1629 

Br938 

Var. 

22      8.423 

70-3 

+  3.857  1  -.0023 

—  .018 

—  .0005      o 

.10           .48         .22 

1630 

Br  944 

6.0 

22      8.856 

65-9 

+  3.0677  +  .0006 

-.005 

+  .0004      o 

.13            .52         .27 

1631 

L  2284 

7-3 

22  34.432 

85.3 

+  I.9I95  +  .OOI7 

—  .OOI 

—  .OOOI         O 

.15           .70        .23 

1632 

Br  935 

6.2 

22  34.799 

66.7 

+  4.4866—  .0060 

—  .040 

+  .0005       o 

.12            .57         .28 

1633 

L  2290 

7-5 

23     0.309 

88.2 

+  1.8908  +  .0017 

—  .OOI 

—  .0019      o 

.16           .75         .23 

1634 

Br  948 

5-i 

23      1.283 

86.6 

+  2.  9628+.  OOO9 

—  .004 

—  .0002      o 

.05            .44        .11 

1635 

v  Geminorum 

4.1 

23      I.536 

77.0 

+  3.563°-  -0011 

—  .012 

—  .0006      o 

.05            .26        .IO 

1636 

L  2297 

6.1 

23     4.712 

83-4 

+  i.5872  +  .ooi2 

—  .002 

—  .0023       o 

.15           .84        .27 

1637 

Pi  42 

6.9 

23      5-644 

71.4 

+  10.3760—  .0968 

—  1.167 

+  .0044+  3 

.12            .45          .21 

1638 

L  2340 

5-7 

23  34-937 

82.0 

-0.5639-  .0093 

+  .007 

+  .OO2  2          O 

.13            .72         .24 

1639 

Br  9S2l 

4-5 

23  58.028 

71.0 

+  2.  9074+  .0009 

—  .003 

—  .0025       o 

.12            .44         .21 

1640 

Br  95  22  m 

5-o 

23  S8-550 

83.8 

+  2.  9073  +  .0009 

-.003 

—  .0025       o 

.15            .93         .28 

1641 

A  Canis  Maj 

4-5 

24  27.739 

81.2 

+  2.  2230+.  OOl8 

—  .OOI 

—  .0022       o 

.09            .48         .17 

1642 

L  2300 

6.0 

24  55-972 

83.0 

+  2.23II  +  .OOI8 

—  .OOI 

—  .OOII          0 

•15       -75      -25 

1643 

Groomb  1151 

6.0 

24  56.916 

75-4 

+  9.3694—  .0806 

-.805 

+  .0062       o 

-°7         -44      -17 

1644 

L  2328 

S-9 

25  29.178 

79.6 

+  0.9490—  .OOO8 

—  .004 

—  .0030—    I 

.16        .69      .27 

1645 

Br  953 

6.6 

25  52.322 

78.2 

+  3.4519-  .0010 

—  .010 

—  .0006      o 

.12            .34        .16 

1646 

Pi  126 

6.1 

25  55-7°i 

69.2 

+  3.9179-  .0033 

—  .020 

—  .0013      o 

.12            .58         .27 

1647 

Pulkjj  1065 

5-2 

26  13.706 

91-5 

+  3.3466-  .0005 

-.008 

+  .0014      o 

.11            .8l         .18 

1648 

L  2368 

S-S 

26  19.846 

85.6 

-0.5089-  .0083 

+  .006 

—  .0050+10 

.12            .68         .20 

1649 

Br  955 

7-4 

26  27.646 

78.4 

+  3.5029—  .OOI2 

—  .on 

+  .003  1       o 

.15        .68      .26 

1650 

Br  956 

6.6 

6  26  28.367 

66.3 

+  3.  5025-.  0012 

—  .Oil 

+  .0025      o 

.13            .42         .22 

1602     8M  fols.  2«7,  N  25". 
1617  h  3857.    8*8   13"  255° 


1611  S  900.     7*?2  14' 


25° 


1623 


9"  204°. 


CATALOGUE   OF   6188   STARS   FOR   1 900 


67 


No. 

Decl.  1  900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

p.'  and  i  oo  Ap.' 

Prob.  Errors. 
SEp.  ioop/  Sio 

Remarks. 

1601 

Of                 tf 

-30  I  8.07 

77-5 

//                         // 

-1.439-   -334 

// 

+  .01 

it 
+  .OOI         O 

//                //             tr 

.06        .30     .12 

1602 

-39  2632.61 

81.8 

-1.457-    -287 

+  .01 

-.015       o 

.13        .56     .20 

89  G  Columbae  * 

1603 

-"  43  37-26 

89.6 

-1.477-    -405 

+  .02 

-.013       o 

.12         .80     .20 

2  3116.   9**  4"  24° 

1604 

+  22  33  53-9° 

67-3 

-1.591-   .528 

+.03 

-.113^-  I 

.03        .14     .06 

1605 

-34    5  57-17 

74-2 

-1.459-   -3*5 

+  .01 

+  .025      o 

.14        .63      .27 

90  G  Columbae 

1606 

+  49  20  20.40 

77.0 

—  1.508—   .672 

+.05 

—  .005      o 

.05         .21      .09 

46  Aurigas  ^ 

1607 

+  56  20  18.01 

80.7 

-1.554-   .736 

+  .06 

+  .018       o 

.14         .40      .l8 

1608 

+  58  28  18.76 

70.8 

-1.591-   .762 

+.07 

—  .on      o 

.08         .26      .13 

5  Lyncis 

1609 

-17  54  22.48 

71.2 

-1.599-   -383 

+  .01 

.000      o 

.05      .24    .10 

, 

1610 

-33  23    8.63 

76.0 

—  1.666—   .317 

+  .01 

-  -053      o 

.10      .43    .18 

1  91  G  Columbse  8 
(3  Canis  Maj) 

1611 

+  43837.16 

80.  i 

—  1.617—   .461 

+  .02 

-  .003       o 

.05        .26     .09 

8  Monocerotis  * 

1612 

+  25    6    4.12 

74-4 

-1.639-   -536 

+  .03 

—  .017       o 

.13        .56     .24 

1613 

-3053  38-07 

79-7 

-1.716-   .329 

+  .01 

-.015      o 

•IS      -75    -27 

1614 

-ii  2834.37 

90.4 

-1-753-   -405 

+  .02 

-  .047      o 

.11      .71    .18 

1615 

+  21  42      1.51 

71.2 

-1.740-   .522 

+.03 

—  .018       o 

.11      .30    .16 

14  Geminorum 

1616 

-25  31   24.48 

92.0 

-1.767-   .353 

+  .01 

-.031       o 

.15      1.  12      .25 

29  G  Canis  Maj 

1617 

-3639   19.23 

79-4 

-!-747-   -301 

+  .01 

+  .048       o 

.10      .46    .17 

90  G  Columbae  * 

1618 

-3638SS-OS 

82.2 

—  1.808-   .301 

+  .01 

—  .006      o 

.12        .52      .19 

94  G  Columbae 

1619 

-56  I857-57 

82.7 

-1.872-   .154 

.00 

—  .025+  I 

.12        .6l      .21 

1620 

—  4O  13  4O.OO 

79-8 

-1.884—   -282 

+  .01 

—  .006      o 

.12        .54     .20 

96  G  Columbae 

1621 

-     I    26  53.32 

98.2 

—  1.916—   .440 

+  .02 

-  .030      o 

.14    i.io    .19 

Cord  7815 

1622 

-52  38   27.73 

69.1 

—  1.888—   .192 

.00 

+  .OIO         O 

•05        .28     .13 

Canopus.  a  Argus 

1623 

+  2051      2.59 

60.2 

—  1.961—   .518 

+•03 

—  .056      o 

.09        .31      .18 

15  Geminorum  * 

1624 

+  2033   23.01 

80.2 

-1.925-   .517 

+.03 

—  .004      o 

.08        .38      .I4 

1  6  Geminorum 

1625 

-   4  17  45-63 

70.4 

-1.929-   .431 

+  .02 

—  .002      o 

.11         .46     .21 

9  Monocerotis 

1626 

+  o  21  33.16 

83.8 

-1.941-   .446 

+  .02 

—  .on       o 

•lo      .35    .13 

77  Orionis 

1627 

+  58  14  10.54 

67.8 

—  2.260—   .756 

+  .09 

--330      o 

.07         .23      .12 

6  Lyncis 

1628 

+   2  58    4.14 

91.0 

-1.941-   .454 

+  .02 

—  .010      o 

.13        .69     .18 

1629 

+3°33  I7-I° 

68.8 

-1-957-   -558 

+  -03 

-  -023      o 

•08        .35      .17 

48  Aurigae  5™  to  6M 

1630 

-    0  12  57.67 

68.9 

-1.944-  .444 

+  .02 

—  .010      o 

.11        .45      .22 

78  Orionis 

1631 

-40  54  59.42 

81.3 

-1.984-   .278 

+  .01 

-.013       o 

.14         .57      .22 

Cord  7852  * 

1632 

+  46  44  56.94 

57-6 

-1.967-  .650 

+  .0S 

+  .005       o 

.11         .35      .21 

47  Aurigas 

1633 

-4i  3438-74 

80.3 

-2.014-  -273 

+  .01 

—  .005       o 

.14         .55      .22 

1634 

-    4  42     i.  ii 

85.0 

—  1.996—  .429 

+  .02 

+  .014      o 

.06         .38      .11 

10  Monocerotis 

1635 

+  20  16  31.57 

72.9 

—  2.032—  .516 

+  -03 

—  .021       o 

.05         .20      .09 

1636 

-48    7    1.66 

81.9 

-2.043-   -229 

.OO 

—  .028      o 

.12         .69      .23 

15  G  Puppis  G* 

1637 

+  794032.87 

69-4 

—  2.002—1.505 

+  -45 

+  .016—    I 

.11          .36      .18 

1638 

-69  55  44-69 

81.8 

—  2.051+   .082 

+  .02 

+  .008       o 

.11         .6l      .20 

41  G  Doradus  Tr1 

1639 

-   658    8.23 

65-4 

—  2.093-   -420 

+  .O2 

.000      o 

.10      .34    .18 

1  11  Monocerotis  * 

1640 

-   6  58  13.72 

84.0 

—  2.091—   .420 

+  .O2 

+  .OO2         O 

•13      -75    -23 

1  12  Monocerotis  * 

1641 

-3231    1.46 

76.2 

—  2.I2O—     .321 

+  .01 

+  .016      o 

.09     .41    .17 

0  753-     7M  i"a  39° 

1642 

—  32  18  24.03 

76-3 

—  2.l68—     .322 

+  .01 

+  .009      o 

.14     .64    .26 

«6  G  Canis  Maj 

1643 

+  78    430-7o 

74-7 

-2.179-1.357 

+.38 

—  .001—    I 

.07      .36    .15 

c 

1644 

-57  56  18.00 

80.2 

-2.254-     .136 

+  .01 

—  .029      o 

.14     .63    .23 

59  G  Pictoris 

1645 

+  15  58  24.53 

72.6 

—  2.280—     .499 

+  .04 

—  .022      o 

.11      .32    .16 

19  Geminorum 

1646 

+  32  31  33.68 

71.8 

-2.294—     .566 

+.05 

-.031       o 

.11      .58    .25 

1647 

+  11  36  50.10 

91.2 

—  2.252—     .484 

+.03 

+  •037      o 

.10      .75    .17 

1648 

-6937  59.01 

81.4 

—  2.IOI+    .076 

+.03 

+.197+  I 

.10      .56    .19 

42  G  Doradus  it3 

1649 

+  17  5059-98 

73-9 

-2.277-     .506 

+  .04 

+  .032       o 

.12        .58     .24 

|5  924 

1650 

+  17  51  17.15 

62.5 

—  2.289—     .506 

+  .04 

+  .O2  1          O 

.10         .36      .20 

j  2O2  Geminorum 

1631     9M8"  229°. 

1639  2  919.     5^0  4'.'6  328° ;  14""  26"  55° 


1636  Innes.     9M  i"  134° 
1640  Comp.  of  2  919.     s 


106° 


68 


PRELIMINARY   GENERAL  CATALOGUE   OF   STARS   FOR   IpOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i  and  100  A  n 

Prob.  Errors. 
aEp.      loop     aio 

M 

b    m        s 

s                s 

s 

s 

//              //           // 

1651 

Pulkjs  1071 

5-5 

6  26  44-447 

93-4 

+  2.7842  +  .OOH 

-  .003 

+  .0018       o 

.13          .82        .19 

1652 

Pi  148 

6.0 

26  48.743 

86.5 

+  2.3759+.ooi6 

—  .001 

+  .0004      o 

.12            .75          .21 

i6S3 

Bt957 

6.7 

27    0.825 

63-9 

+  3.1850    .0000 

—  .006 

—  .0018      o 

.14            .52          .28 

1654 

Paris  7841 

5-7 

27    1.748 

92.8 

+    2.  8838  +.0008 

-  .003 

.0000      o 

.13            .80         .19 

1655 

L  2333  m 

5-4 

27  21.584 

80.6 

+  1.4762  +  .0006 

—  .002 

-.0053-  I 

.16            .78         .28 

1656 

PulkM  1075 

5-9 

27  29.346 

94.4 

+  2.9372  +  .ooo6 

—  .004 

—  .0005      o 

.13        .88      .19 

1657 

Br9S8 

4.8 

27  29.799 

72.9 

+  3.  2450-  .0003 

—  .006 

+  .OOO2         O 

.10        .39      .17 

1658 

Br  947 

6.9 

27  36-°38 

67.0 

+  S-0?0?--^2 

—   .069 

-.0035-  I 

.12            .56         .27 

1659 

L  2319 

5-9 

27  39-379 

80.6 

+  2.i343  +  .ooi6 

—  .001 

—  .0025      o 

.16      1.16      .38 

1660 

£  Canis  Maj 

4.4 

27  41-384 

82.6 

+  2.  5003  +  .0015 

—  .001 

+  .0006      o 

.10        .68      .21 

1661 

L  2343 

5-3 

27  44-487 

85.4 

+  1.0416—  .0006 

—  .004 

—  .0046      o 

.14           .70        .22 

1662 

L  2326 

6.4 

27  47-429 

87.0 

+  i.  9244+.  0016 

—  .001 

—  .0010      o 

.15            .70        .22 

1663 

Pi  144 

5-7 

27  55-433 

72.8 

+  3.4073-  .001  1 

—  .009 

—  .0015—    I 

.15            .72         .31 

1664 

L  2324 

6.4 

28    7.124 

87-5 

+  2.0760+.  0018 

—  .001 

-.0015+  I 

.13            J2         .21 

1665 

Br  946 

6.2 

28  33.158 

78-5 

+  5.4946—  .0200 

—    .IOI 

-.0272-  7 

.05            .28         .IO 

1666 

PulkH  1080 

5-i 

28  33.316 

89.4 

+  3-°435  +  .°o°3 

—    .004 

-  .0023      o 

.11            .72         .19 

1667 

Br  960 

7-3 

28  45-163 

60.8 

+  3.5417-  -0017 

—    .OI2 

—  .0003       o 

.20        .68      .38 

1668 

Br  959 

5-3 

28  54.185 

76.9 

+  3-7799-  -°°3° 

—    .Ol6 

—  .0004      o 

.09        .44      .17 

1669 

L  2330 

6.0 

28  54-423 

83-4 

+  2.2455  +  .ooi7 

—    .OOI 

+  .0002       o 

.12           .80        .24 

1670 

L2334 

5-3 

28  55.694 

89.2 

+  2.0552  +  .  0015 

—    .OOI 

+  .0047—  I 

.15           .78         .22 

1671 

L  2349 

5-8 

28  58.119 

81.4 

+  i.  3986  +.0007 

—  .002 

+  .0084+    2 

.18        .88      .31 

1672 

Br95i 

6.0 

29    8.417 

68.7 

+  5.  1097-.  0141 

—   .072 

+  .0008       o 

.14        .58      .28 

1673 

Pi  75 

5-7 

29  10.280 

80.0 

+  10.3216—  .1464 

—  1.142 

—  .0257—121 

.04        .32      .10 

1674 

Br  961 

6.7 

29  21.416 

63-6 

+  3.2495-.°00S 

-  .007 

—  .0009      o 

•IS        -69      -35 

i675 

Br  949 

7.2 

29  25.363 

67.2 

+  5.5219—  .0192 

—  .100 

+  .OO22         O 

.12           .52         .26 

1676 

Groomb  1190 

5-9 

29  40.371 

71-5 

+  4.1283-  .0055 

—  .026 

+  .0008      o 

.15           .72         .32 

1677 

L2338 

6-5 

^48.571 

91.4 

+  2.0I75  +  .OOI5 

—    .OOI 

+  .OOII         O 

.13        .88      .21 

1678 

Paris  7921 

5-9 

30    6.380 

OI.O 

+  3.°953  +  -0001 

-  .005 

+  .0005      o 

.10      1.05      .14 

1679 

Br  966 

7-i 

30  14-695 

62.8 

+  3-4757-  -0016 

—  .010 

+  .0014      o 

.16      .60     .33 

1680 

L  2341 

5-5 

30  19.144 

87.2 

+    2.IO29+.OOI8 

—    .OOI 

—  .0014+   I 

.n        .66      .19 

1681 

H  Pictoris 

5-9 

30  28.954 

82.2 

+  0.8955—  .0018 

—  .004 

.0000—    I 

.18        .70      .27 

1682 

Br972 

4.6 

3°  5L897 

81.8 

+  2.5I37  +  .OOI5 

—    .OOI 

+  .0004      o 

.07           .36        .12 

1683 

L  2347 

5-8 

30  52.850 

85-2 

+    2.2239+.OOI7 

—    .OOI 

—  .0003       o 

.15      .87     .26 

1684 

L  2350  m 

7-i 

3i    5-I96 

86.2 

+  2.  1804+  .0017 

—    .OOI 

—  .OOI  I         O 

.15        .90      .26 

1685 

Br  954 

7-2 

31  16.564 

74.0 

+  5.5600—  .0208 

—  .104 

-.0034+  I 

.09           .54        .22 

1686 

Pi  171 

5-7 

3i  39-976 

80.2 

+  2.9537  +  .0005 

-  -003 

+  .0002         0 

.16        .88      .31 

1687 

Br963 

5-9 

3i  43-796 

85-5 

+  4.1606—  .0064 

—  .026 

—  .0021—    I 

.05      .30     .09 

1688 

Br  964 

5-3 

3i  5i-294 

68.0 

+  4.1812—  .0064 

—  .027 

-.0013      o 

.13      .50     .24 

1689 

L  2359  m 

5-8 

3i  5S-637 

88.3 

+  2.0844+.  0016 

—    .OOI 

-.0015      o 

.13        .69      .20 

x 

1690 

y  Geminorum 

1.8 

3i  56-131 

73-7 

+  3.4671-.  0017 

—  .010 

+  .003  1       o 

.03      .16     .07 

1691 

Pi  178 

8.0 

3i  58.873 

83-6 

+    2.  6244  +.OOI3 

—  .002 

—  .003  1       o 

.13      .84     .26 

1692 

Br  975 

6.1 

32    o.ioo 

71.4 

+    2.6259+.  OOI3 

—   .002 

—  .0016      o 

'.08     .38    .17 

1693 

Br  967 

5-9 

32  2.523 

77-8 

+    3.8068-  .0037 

-  .017 

—  .0012      o 

.11            .54        .21 

1694 

Br96S 

5-o 

32  11.406 

76.2 

+    4.2887-.  0075 

-  .031 

+  .0005—    I 

.10        .40      .17 

1695 

v  Canis  Maj 

4.2 

32  19.328 

68.0 

+    2.6l7O+.  OOI2 

—  .002 

+  .0047       o 

.08     .36    .17 

1696 

L2383 

4-4 

32  46.362 

79-2 

+   1.3220     .0000 

-  .003 

—  .0016      o 

.13           .58         .22 

1697 

Br  970  m 

6.1 

33  14-761 

69.4 

+    3.78SI-  -0037 

—   .016 

—  .0008      o 

.IO           .42         .20 

1698 

Br  979 

4.7 

33  29-523 

66.5 

+  2.6379+.OOI2 

—    .OOI 

—  .OOIO          0 

.IO           .45         .22 

1699 

L  2375 

6.0 

33  38.143 

85.0 

+  2.0366  +  .  0016 

—    .OOI 

—  .0005      o 

.15            .69        .23 

1700 

L  2376 

6.0 

6  33  45-947 

89.7 

+  2.0785  +  .0016 

—    .OOI 

—  .OOI  I         O 

.12            .75         .20 

1653     In  a  cluster. 

1669    SM  prec.  i!88,  S.  6'/4. 


1655  Sellors. 
1674  S  938. 


8«f6  13"  315° 
IIM  10"  210°. 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


69 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

H/  and  i  oo  A  (i/ 

Prob.  Errors. 
SEp.  loop.'  Sio 

Remarks. 

1651 

0             /                 // 

-12   IQ  15.30 

90.2 

//                          // 

-2.351-    .402 

// 
+  .02 

// 
—  .017      o 

.13      .77    .20 

1652 

-27  41  59.81 

81.8 

-2-338~   -343 

+  .01 

+  .OO2         0 

.11      .51    .18 

42  G  Canis  Maj 

1653 

+  4  55  40.04 

62.1 

—  2.361—   .460 

+  .03 

—  .004      o 

.12         .48      .26 

12  Monocerotis* 

1654 

-   8    5  11.34 

89.6 

—  2.381—    .416 

+  .02 

—  .022      o 

.12         .69      .l8 

1655 

-50  10    6.53 

79.8 

—  2.458—    .212 

.OO 

—  .070+     I 

.13         .65      .24 

1  6  G  Puppis  (Z)  * 

1656 

-   5  47  42.71 

90-5 

-2.438-     .424 

+  .O2 

-  -039      o 

.12         .73      .19 

1657 

+   7  24  22.34 

70-5 

-2.409-     .469 

+  .03 

—  .OIO         0 

.09         .33      .16 

13  Monocerotis 

1658 

+  56  27  53.47 

54-8 

-2.464-     .732 

+  .09 

-  .056      o 

.IO         .31      .20 

9  Lyncis 

1659 

-35  ii  16.72 

72.6 

-2.438-     .307 

+  .01 

—  .025       o 

.17      1.24      .49 

191  G  Columbae 

1660 

-23  2047.85 

77-4 

—  2.415—     .361 

+  .01 

+  .OOI         O 

.10     .43    .17 

4  Canis  Maj  £' 

1661 

-5647    3.78 

83-5 

-2.407-     .149 

+  .01 

+  .014+  I 

.11    .57  .19 

6  1  G  Pictoris 

1662 

-405043.67 

81.5 

-2.437-     .277 

+  .01 

—  .012      o 

.14         .56      .21 

102  G  Columbae 

1663 

+  14  13  55.21 

69.9 

-2.530-     .492 

+  .04 

—  .094      o 

•IS         -65      -30 

1664 

-36  52  n.oi 

83.0 

-2.392-     .299 

+  .01 

+  .062      o 

.12         .57      .20 

103  G  Columbae 

1665 

+  61  34    8.62 

72.0 

-2.772-     .790 

+  .12 

-.281+  4 

.06         .23      .11 

8  Lyncis 

1666 

-   i    8  40.14 

87.4 

-2.528-     .439 

+  -03 

-  -037      o 

.11         .6l      .18 

1667 

+  19  30  21.62 

56.2 

-2-52I-    .511 

+  .04 

-.013      o 

.l6         .50      .31 

22  Geminorum 

1668 

+  28    6    0.87 

71.2 

-2.545-     .545 

+  .05 

-  .023       o 

•08         .33      .15 

49  Aurigae 

1669 

-31  57  21.64 

80.0 

-2.521-     .324 

+  .01 

+  .OOI         O 

.IO        .6l      .21 

47  G  Canis  Maj  * 

1670 

-37  37  13-53 

83.6 

—  2.604—     -297 

+  .01 

-.080-  I 

.13        .59     .20 

104  G  Columbae 

1671 

-51  45  21.05 

76.6 

-2.435-     .202 

.00 

+  .092—  I 

.14        .65      .26 

9  G  Cannae 

1672 

+  56  56  17-38 

62.4 

-2.531-     .738 

+.11 

+  .OII         0 

.13        .40     .23 

ii  Lyncis 

1673 

+  79  40  22.28 

81.6 

-3.161-1.488 

+.56 

-.616+   4 

.04        .26     .08 

23  H  Camelopardi 

1674 

+   7  39    0.64 

59-5 

-2.570-     .469 

+.03 

—  .009      o 

.12        .41      .24 

1  4  Monocerotis* 

i6?S 

+  61  33  38.92 

64.2 

-2-577-     -798 

+•13 

—  .OIO         O 

.11        .41      .22 

10  Lyncis 

1676 

+  383!  34-iQ 

65.0 

—  2.623—  -596 

+.06 

-  -°35      o 

.14        .56     .29 

1677 

**ij8  32  54.32 

85-1 

—  2.624—  -291 

+  .01 

—  .024      o 

.13        .67      .21 

105  G  Columbae 

1678 

+  o  58    9.67 

99-5 

—  2.609—   -446 

+.03 

+  .017      o 

.IO        .89     .14 

1679 

+  16  52  40.62 

50.8 

-2.674-  .501 

+  .04 

-  .036      o 

.12         .42      .28 

23  Geminorum 

1680 

-36    925.62 

82.5 

-2.550—  .302 

+  .01 

+  .094      o 

.10      .49    .17 

106  G  Columbae 

1681 

-584042.17 

80.2 

—  2.684-  -128 

+  .01 

—  .026      o 

.14         .6l      .23 

h  3874.    8M  2"  236° 

1682 

-2253    7.67 

82.7 

—  2.678—   .362 

+  .02 

+  .013      o 

.06         .34      .11 

5  Canis  Maj  ^ 

1683 

-32  38  13.69 

76.2 

—  2.685—  -32° 

+  .02 

+  .008      o 

.13         .6l      .24 

50  G  Canis  Maj 

1684 

-33  55  50-1° 

76.4 

-2.662-  .313 

+  .01 

+  .049      o 

•IS      -73    -29 

107  G  Columbse* 

1685 

+  62    032.42 

69.4 

—  2.703—  .801 

+.13 

+  .024      o 

.09      .29    .15 

41  Camelopardi 

1686 

-   5    7  41-09 

77-4 

-2.772-  .425 

+.03 

—  .on      o 

.12         .6l      .23 

1687 

+  39  28  44.46 

79-7 

-2.883-   -599 

+.06 

—  .116      o 

.05         .28      .IO 

51  Aurigae 

1688 

+  3959  i7-3i 

61.8 

—  2.809—   .602 

+.06 

-  .032       o 

.12         .41      .23 

52  Aurigae  ^* 

1689 

-3641  57.03 

83-9 

—  2.781—   .300 

+  .01 

+  .003       o 

.12         .58      .19 

* 

1690 

+  1629    4.78 

72.1 

-2.831-   .500 

+  .04 

-  .047       o 

.03         .15      .06 

1691 

-  18  34  42.39 

80.4 

-2.769-   .377 

+  .02 

+  .019      o 

•13      -73    -25 

i  W.  H.  17"  263° 

1692 

-  18  34  40.17 

71.8 

-2.785-   .378 

+  .02 

+  .005       o 

.09     .36    .17 

J  6  Canis  Maj  v1 

1693 

+  29    4  12.01 

73-8 

-2.819-   -548 

+•05 

—  .025       o 

.12         .47      .21 

53  Aurigae 

1694 

+  42  34  36-95 

68.8 

-2.867-   -618 

+.07 

—  .061      o 

.10      .33    .17 

50  Aurigae  ^ 

1695 

-19  10  13.85 

73-5 

-2.888-   .377 

+  .02 

—  .070—   I 

.09        .37      .16 

7  Canis  Maj  v2 

1696 

-52  53  38-60 

80.2 

—  2.866-   .189 

+  .01 

—  .009      o 

.10      .53    .19 

ii  G  Carinas  N 

1697 

+  2821    5.17 

66.0 

-2.921-   .545 

+  •05 

-  -023      o 

.09        .41      .20 

54  Aurigae* 

1698 

-18    9    3.17 

70.6 

-2.926-   .379 

+  .O2 

—  .007       o 

.11         .40     .19 

8  Canis  Maj  Vs 

1699 

-38    3  44.20 

79-7 

—  2.895—   .292 

+  .01 

+  •037      o 

.13        .52      .20 

no  G  Columbae 

1700 

-3654  18.50 

83-7 

—  2.928—   .298 

+  .01 

+  .015      o 

.12        .56     .19 

112  G  Columbas 

1684  p  754. 


o'.'9  35° 


1689  h.     12"  22"  301°;  ft  755  7M  i"  260°.  1697  OS  152.     8M  o'.'S  38°;  fixed. 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

M-  and  100  A  jx 

Prob.  Errors. 
aEp.      ioo(i     aio 

M 

h    m         s 

s                 s 

s 

s 

tr                   n              tt 

1701 

L  2374 

5-3 

6  34    2.919 

83.6 

+  2.  2463  +  .OOI7 

—  .OOI 

+  .0081+   i 

.15             .82          .26 

1702 

v  Puppis 

3442.U3 

70.2 

+  1.8358+.  OOI  2 

—  .002 

+  .0001       o 

.09             .34          .16 

1703 

PulkM  1096 

5.1 

34  42-485 

93-2 

+  2.74i7  +  .ooo9 

—  .002 

+  .OOOI         O 

.12            .78         .l8 

1704 

Br  977 

6.8 

35    2.779 

64.2 

+  3.7838—  .0040 

—  .Ol6 

+  .0006       o 

.13            .45         .24 

I70S 

Pi  206 

7-3 

35  15-092 

86.5 

+  2.0451  +  .0014 

—  .OOI 

+  .OOII         O 

.14            .72          .22 

1706 

S  Monocerotis 

>$?• 

35  28.259 

80.9 

+  3.3051—  .0012 

—  .OO7 

+  .0002       o 

.04            .26         .08 

1707 

Br  973 

5-2 

35  48.372 

66.4 

+4.3716—  .0092 

-•033 

—  .0036       o 

.09            .36         .18 

1708 

L2388 

5-9 

35  52-804 

91.6 

+  2.2974+.OOI2 

—  .OOI 

—  .OOI2—     2 

.12            .96         .22 

1709 

L  2402* 

7-2 

35  56-798 

87.6 

+  1.6001  +  .0007 

—  .002 

+  .0004       o 

.20            .80         .26 

1710 

Pi  203 

5-9 

35  56-932 

88.4 

+  3.0854-  .0002 

—  .004 

—  .0005       o 

.08            .56         .14 

1711 

L  2402* 

5-2 

35  57.639 

80.4 

+  1.5984  +.0007 

—  .002 

—  .0012       o 

.l6            .69         .26 

1712 

Br  968 

7-8 

36    1.026 

66.6 

+5-3175-  -0205 

-.084 

+  .OOOI+     I 

.12            .57         .28 

1713 

L  2397 

7-o 

36  32.493 

85-3 

+  2.043  1  +  .0014 

—  .001 

+  .0041       o 

.14            .70         .22 

1714 

Br  982 

5-3 

36  34.976 

70.4 

+  3-4955-  -0024 

—  .010 

+  .OOIO—     I 

.10        .42       .19 

I7i5 

Pulkja  noo 

5-6 

37    9-950 

93-2 

+  2.  863  7  +  .0005 

-.003 

+  .0019      o 

.13             .78         .19 

1716 

Br  971  m 

4.9 

37  24.146 

65-7 

+  5.3129-  .0214 

-.084 

—  .0020      o 

.IO            .48         .24 

1717 

t  Geminorum 

37  46.820 

74-8 

+  3.6936-  .0038 

—  .014 

.0000       o 

.03             .15          .06 

1718 

L  2411 

^3 

37  58-569 

84.7 

+  1.9542  +  .0014 

—  .OOI 

—  .0021       o 

.15            .69         .23 

1719 

Brisb  1331 

6.9 

38    4-253 

90-3 

+  1.63  1  7  +  .0007 

—  .002 

—  .0009       o 

.15            .8l          .22 

1720 

Br  976 

5-6 

38  18.080 

66.7 

+  5.1266—  .0194 

-.071 

+  .0036—   I 

.12            .56         .27 

1721 

Br  987 

4-7 

38  20.994 

56.1 

+3.3848-  .0019 

—  .008 

+  .0002       o 

.14            .36         .24 

1722 

Br  986 

5-7 

38  25.274 

69.2 

+  3.8046—  .0047 

—  .016 

—  .0003       o 

.11             .40         .20 

1723 

L  2418 

7.0 

38  53-303 

87.5 

+  2.  0303  +  .00  1  4 

—  .OOI 

—  .0017       o 

.13            .72         .21 

1724 

Br  985 

5-6 

393L940 

79-6 

+4.3302  -.0094 

-.032 

+  .0007  +     2 

.06            .30         .11 

1725 

i  Geminorum 

3-3 

39  40.629 

80.3 

+  3.3686—  .0022 

-.008 

—  .0078—    I 

.03            .20         .07 

1726 

Radcl  1805 

6.9 

39  51-562 

80.6 

+  5.0180—  .0189 

—  .064 

+  .0078—     2 

.n        .68      .23 

1727 

Radcl  1806 

6-7 

39  52-160 

80.6 

+  5.0180—  .0189 

—  .064 

+  .0078—     2 

.11        .68      .23 

1728 

Br  984 

5-4 

40    2.135 

63.6 

+  4.5799-  .0128 

-.043 

—  .0009       o 

.15        .54      .29 

1729 

L  2430 

6.8 

40    3.025 

82.8 

+  2.0016  +  .  0014 

—  .OOI 

—  .0015       o 

.16        .86      .28 

1730 

Br  974 

5-1 

4031.541 

74-8 

+  6.2787—  .0412 

—  .169 

+  .0014       o 

.09        .42      .17 

1731 

L  2429 

5-3 

40  40.181 

85.8 

+  2.2825  +  .OOI5 

—  .OOI 

—  .0004      o 

•14       -75      -23 

1732 

a  Canis  Maj  c.g 

—  2.O 

40  44-613 

71.0 

+  2.6441—  .0008 

—  .002 

—  .0366-   9 

1733 

Br  991 

6.1 

41    5.188 

82.3 

+  3.2729—  .0014 

-.007 

-  .0005       o 

•13        -39      -17 

1734 

Paris  8170 

5-4 

41  26.703 

97-5 

+  2.  7259+.  OOO8 

—  .002 

—  .0018      o 

.14      i.  ii      .20 

1735 

L  2437 

6.1 

41  38.420 

87.7 

+  2.  2439+.  OOO8 

—  .OOI 

-.0173-   3 

.12            .78         .21 

1736 

L  2438 

6.1 

41  42.448 

84.9 

+  2.  2883+.  OOI5 

—  .OOI 

+  .0009      o 

.15            .80         .25 

1737 

Br  993 

5.0 

41  54-043 

78.4 

+  3.2590-  .0014 

—  .007 

—  .0014      o 

.10            .54         .20 

1738 

PulkM  1  112 

5-8 

4i  55-oi7 

95-3 

+  2.  8398  +.0004 

-.003 

—  .0008       o 

.13        .88      .19 

1739 

Br  996 

5-3 

42  17-433 

72.4 

+  2-7377  +  -0008 

—  .002 

+  .0007       o 

•13        -54      -24 

1740 

Br  995 

4.8 

42  38.805 

88.0 

+  3.1298—  .0008 

—  .005 

—  .0004      o 

.04        .54      .13 

1741 

Br  looi 

6.2 

42  44-5  rl 

75-6 

+  2.  57O2  +  .  OOI  I 

—  .OOI 

—  .0005      o 

.15        .68      .28 

1742 

L  2447 

6-3 

42  46.354 

86.9 

+  2.0581  +  .OOI4 

—  .OOI 

—  .0004      o 

•15        -75      -23 

1743 

PulkM  1118 

5-5 

42  50.533 

94-5 

+  2.  8646  +.OOO3 

-.003 

—  .0024      o 

.13        .90      .19 

1744 

Br  980 

42  55418 

80.6 

+  6.4958-.  0487 

-.191 

+  .0019       o 

.06        .33      .11 

1745 

Pulkss  1113 

6.0 

43  10.366 

93-8 

+  3.9123—  .0066 

-.018 

-.0035      o 

.13        .86      .19 

1746 

Paris  3198 

5-9 

43  14-907 

97-5 

+  3.0427—  .OOO4 

—  .004 

—  .0020      o 

.13        .94      .18 

1747 

L  2471 

5-9 

43  36-396 

88.4 

+  I.372I—  .OOO7 

—  .002 

—  .0021       o 

.20            .92          .28 

1748 

Br  992 

5-2 

43  41-734 

63.2 

+  4.2481—  .OIO3 

—  .029 

—  .OOl6—     2 

.11        .51      .26 

1749 

L  2455 

5-4 

43  56.080 

81.6 

+  2.0525  +  .0013 

—  .OOI 

-.0015       o 

.10        .48      .17 

1750 

L  2469 

7-3 

6  44    1-545 

87.2 

+  1.6298  +.OOO4 

—  .002 

—  .0010      o 

.11        .69      .19 

1706 

1716  S  948. 


2950.     9M3"2i2°. 
6*3  i  '.'6  119°;  7"?6  8'/4  306°. 


1709-11  Dunlop.     13"  318°. 
1718    9fs  fols.  ifoo,  S.  s'/3. 


CATALOGUE  OF  6l88  STARS  FOR  IQOO 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i'and  ioo  A(i 

Prob.  Errors. 
SEp.  ioo(i'  Sio 

Remarks. 

1701 

-32  15  17.26 

76.1 

-    2.907-.  324 

+  .01 

a 
+  .060—    I 

//         a       n 
.14      .67    .27 

59  G  Canis  Maj 

1702 

-43    629.85 

70.2 

-   3.044-.  263 

+  .01 

—  .020      o 

.08      .32    .15 

1703 

-  14    3  22.40 

88.6 

-   3-035  --394 

.  +.02 

—  .Oil         O 

.12         .67      .19 

1704 

+  28  17  20.29 

63.8 

-   3.069-  .544 

+  .06 

-.015       o 

.12         .53      .27 

25  Geminorum 

1705 

-37  54  21.38 

86.0 

-   3.099-  .294 

+  .01 

—  .028       o 

.14         .63      .21 

1706 

+  9  59  17-68 

79-6 

-   3.097-475 

+  .04 

—  .007      o 

.04         .26      .09 

15  Monocerotis  ^  8c??f 

1707 

+  4437  !3-96 

53-o 

-   3.158-  .628 

+.08 

-  -039      o 

.10      .36    .23 

55  Auriga:  ^ 

1708 

-3022  25.81 

87.2 

-   3-3I7--329 

+  .02 

—  .192      o 

.14      1  .08     .28 

63  G  Canis  Maj 

1709 

—  48    7  40.48 

88.0 

-   3.I37-.229 

+  .01 

—  .006      o 

.I?         .75      .24 

* 

1710 

+  o  35  18.80 

84.9 

-   3-135-  -443 

+  .04 

-.003      o 

•09      -47    -J5 

1711 

-48    7  50.07 

81.6 

—   3.125—  .228 

+  .01 

+  .008      o 

.13      .67    .23 

21  G  Puppis* 

1712 

+  59  32  48.87 

58-7 

-   3.  1  14-  .764 

+.14 

+  .024      o 

.IO         .37      .22 

S  946.    9*  4"  130° 

1713 

-38    3  56-06 

78.6 

-     3.  210-  .293 

+  .01 

—  .027—    I 

.12         .50      .20 

22  G  Puppis 

1714 

+  17  44  34.93 

60.5 

-     3.  284-  .502 

+.05 

—  .098      o 

.08         .29      .17 

26  Geminorum 

1715 

-   9    4  13.84 

89.0 

-     3.26I-4II 

+.03 

—  .024      o 

.12         .65      .18 

1716 

+  59  32  34-68 

56.3 

-     3.  256-  .762 

+  .14 

+  .OOI         O 

.09         .29      .l8 

12  Lyncis* 

1717 

+  25  13  48.48 

69-3 

-   3-3IO--530 

+  .06 

—  .020      o 

.03         .16      .07 

1718 

-40  15  16.35 

78.1 

-   3.308-.  279 

+  .01 

—  .001      o 

.13         .51      .21 

23  G  Puppis* 

1719 

-47  31  35.64 

90.0 

-   3.304-  .233 

+  .01 

+  .OII         O 

.13         .71      .19 

24  G  Puppis 

1720 

+  57  16  22.94 

58.8 

-   3-377-  -736 

+•13 

—  .042      o 

.11         .36     .21 

13  Lyncis 

1721 

+  13  1943-56 

60.2 

-   3.415-485 

+.05 

—  .076      o 

.12         42      .24 

30  Geminorum 

1722 

+  29    4  19.50 

55-8 

-   3-374-  .546 

+.07 

—  .029      o 

.09        .29     .18 

28  Geminorum 

1723 

-3818    3-25 

80.5 

-   3-39I--29° 

+  .01 

—  .006      o 

.12        .52      .19 

26  G  Puppis* 

1724 

+  43  40  37.14 

71.4 

-   3.  283-.  620 

+  .09 

+  .158       o 

.06        .23      .11 

56  Aurigae  \jf 

1725 

+  13    o  12.39 

78.2 

-   3.654-481 

+.05 

—  .201+   I 

.04        .22      .08 

1726 

+  55  48  47.95 

72.4 

-  3-577-  -720 

+.13 

-.108-  I 

.IO        41      .18 

lx   nea        r"T    OC1° 

1727 

+  55  48  49.05 

72.4 

-   3-578-  .720 

+•13 

-.108-  I 

.IO        41      .18 

f  •"  956>    5  .  1  257 

1728 

+  48  53  42.76 

52-8 

-   3482-.  656 

+.11 

+  .OO2         O 

.12        .40     .26 

57  Aurigae  ^' 

1729 

-39    531.49 

78.0 

-   3-499-  -286 

+  .01 

—  .014      o 

.13        .63      .24 

27  G  Puppis 

1730 

+  67  40  56.16 

68.9 

-   3.52i-.ooo 

+.23 

+  .005       o 

.08        .26     .13 

42  Camelopardi 

1731 

-3058    3.98 

79-o 

—   3-525—  -326 

+  .02 

+  .014      o 

.12         .59      .22 

67  G  Canis  Maj 

1732 

-  16  34  43-66 

69-3 

-   4-75I--372 

+  .02 

—  1.206  +  5 

Sirius.  See  Appendix 

1733 

+  8  41  35.29 

78.6 

-   3.578-468 

+  .04 

-.003      o 

.12        .35      .16 

1  6  Monocerotis 

1734 

-1441  24-79 

94-4 

-   3-637-  -389 

+  •03 

-.031       o 

.14        .99     .21 

1735 

-31  40  47.15 

83-4 

-   3-9SI-  .318 

+  .O2 

-.329+     2 

.11         .58      .19 

72  G  Canis  Maj 

1736 

-305037-57 

75-8 

-   3-627-.  326 

+  .02 

+  .OOI         0 

.13        .58      .24 

74  G  Canis  Maj  * 

1737 

+  88  42.85 

71.9 

-   3-659-  -465 

+  .04 

—  .014      o 

.09        .37      .17 

17  Monocerotis 

1738 

—  10    o    1.78 

9i-3 

-  3  -647  --405 

+  •03 

—  .001       o 

.12         .71      .18 

1739 

-14  19    7-39 

73-2 

—   3-671-  -391 

+  .03 

+  .007       o 

.11         46      .20 

ii  Canis  Maj 

1740 

+  2  31  17.74 

83.2 

-   3-734-  -447 

+  .04 

-  .025       o 

.05        .28      .09 

18  Monocerotis 

1741 

—  20  54  26.36 

75-5 

-   3-7I9-  -366 

+  .O2 

—  .002      o 

.14        .50     .22 

12  Canis  Maj  (p) 

1742 

-3740    5.86 

82.3 

-   3-733-  -293 

+  .01 

-.013      o 

.13        .57      .20 

30  G  Puppis 

1743 

-   8  53  21.64 

92-3 

-   3.728-408 

+.03 

—  .002       o 

.12        .79     .18 

1744 

+  69    o  16.64 

72.6 

-   3-724-  -929 

+.27 

+  .009      o 

.06        .23      .11 

43  Camelopardi 

1745 

+  32  43  !2.09 

91.4 

-   3.806-  .558 

+.07 

-  .052      o 

.12        .75      .18 

1746 

—     I    12   26.70 

96-4 

-   3-795-  -434 

+  .04 

-  -034      o 

.12      .88    .17 

1747 

-52  18    7.12 

84.8 

-   3-805-.  194 

+  .01 

—  .014      o 

.15    .71  .23 

14  G  Cannae 

1748 

+  4i  53  56-42 

53-o 

-   3.934-  .606 

+.09 

-•135      o 

.11      40    .25 

58  Aurigae  ^7 

1749 

-3749    9.51 

75-4 

—   3.847—  .292 

+  .01 

—  .028       o 

.10      44    .18 

31  G  Puppis  x 

1750 

-47  4i  43-67 

86.9 

-   3-830-  -232 

+  .01 

-.003       o 

.10      .64    .18 

1723  Dunlop.     8M  8"  277° 


1 736  h  3891.     8*5  5"  220°. 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

|i  and  100  A  p 

Prob.  Errors, 
a  Ep.     100  n     a  10 

M 

h    m         s 

s                s 

s 

s 

"                   //               n 

1751 

Br  997 

6.0 

6  44    4.469 

64-3 

+  3-455I--0028 

—  .009 

—  .0013      o 

.12            .54         .27 

1752 

Lai  13143 

5-9 

44  14-225 

99-o 

+  3-0235--0003 

—  .004 

+  .0006       o 

.14         I.I?         .19 

1753 

Br  988  m 

5-5 

44  16.033 

77-7 

+  5.3050-  .0257 

-.081 

.0000—    I 

.09           .38         .15 

1754 

Pulkss  ii2i  m 

5-4 

44  25.696 

95-i 

+  2.7  199  +  .0007 

—  .002 

—  .0003       o 

.13        .86      .18 

1755 

L  2478 

5-4 

44  28.556 

87.4 

+  1.4432—  .0006 

—  .002 

—  .0009—    I 

.20      1.41      .37 

1756 

Br  1002 

6.0 

44  46-854 

81.4 

.  +3-3874-  -0024 

-.008 

—  .0004      o 

.12            .39         .16 

1757 

L  2490 

5-8 

45  21.764 

83.6 

+  1.1700—  .0019 

-.003 

—  .0008       o 

.14           .80        .25 

1758 

Pi  201 

4.9 

45  29.161 

78.2 

+  8.8203—  .1254 

—  .602 

+  .0250-   4 

.05        .28      .10 

1759 

Br  1004 

5-4 

45  33-458 

67.0 

+  3.5978—  -0041 

—  .012 

—  .0007       o 

.11            .44        .22 

1760 

Bruss  2819 

5-9 

45  55-742 

92.8 

+  3.6449-  .0045 

-.013 

—  .0029       o 

.12            .80        .18 

1761 

K  Canis  Maj 

3-8 

46    6.355 

78.6 

+  2.  24O7  +  .OOI4 

—  .001 

—  .0008       o 

.08           .38         .14 

1762 

Br  999 

6-3 

46    8.687 

64-3 

+  4.1328—  .0093 

—  .025 

+  .0005       o 

.12            .58         .29 

1763 

6  Geminorum 

3-6 

46  11.932 

78.2 

+  3.9588-  .0075 

—  .020 

+  .0005       o 

.04           .22         .08 

1764 

Br  1000 

6.6 

46  21.959 

74-1 

+  4.1187—  .0096 

—  .024 

+  .OO26—     2 

.11            .50        .21 

I76S 

L  2479 

6.1 

46  36.581 

81.4 

+  2.  2671  +  .OOI4 

—  .001 

—  .0003       o 

.15            .72         .26 

1766 

Pi  262 

7-4 

46  39.625 

87.4 

+  2.  2670+.  OOI4 

—  .001 

—  .0006      o 

.18            .96         .28 

1767 

L  2492 

5-i 

47    5-320 

81.2 

+  1.6917  +  .0015 

—  .002 

-.0015+  5 

.18           .69         .27 

1768 

Br  1005 

6.6 

47    5-805 

69.7 

+  4.II72—  .0094 

—  .024 

—  .0006      o 

.11            .54        .24 

1769 

a  Pictoris 

3-2 

47    9-907 

75-6 

+  0.6176—  .0050 

-.005 

—  .0114+   7 

.09           .40        .17 

1770 

L  2486 

S-o 

47  14-163 

82.3 

+  2.i829  +  .ooi4 

—  .001 

+  .OOI2          O 

.11            .52         .18 

1771 

Pi  257 

6.0 

47  23.020 

73-7 

+3.  2658-  .0019 

—  .006 

—  .OO2I         O 

.20            .72          .33 

1772 

T  Puppis 

2.7 

47  27.297 

79-4 

+  1.4886  -.0006 

—  .002 

+  .OO26—     I 

.11             .60         .22 

1773 

L  2511 

4-4 

47  41.007 

85-4 

+  1.3050—  .0012 

-.003 

+  .0002       o 

.15        .66      .22 

1774 

L  2493 

6.2 

48  10.837 

85-7 

+  2.II44+.OOI2 

—  .001 

—  .0046—    I 

.12             .64         .20 

1775 

£Mensae 

5-8 

48  22.338 

76.1 

—  4.9210—  .1546 

+  •355 

—  .0061  +  17 

.07        .66      .23 

1776 

Br  998  m 

4-5 

48  37-153 

76.1 

+  5.2096—  .0269 

-•075 

+  .0007-   3 

.05        .24      .09 

1777 

Paris  8336 

5-8 

48  56.648 

94-7 

+  2.6222  +  .  0009 

—  .001 

—  .0027       o 

.14         .84       .19 

1778 

Br  1009 

4.8 

49    0.177 

62.7 

+  3.  3862  -.0029 

-.008 

+  .0050—    I 

.11            .40         .22 

1779 

Radcl  1841 

6.0 

49    8.469 

94-o 

+  4.4461—  .0141 

-.036 

+  .0024       o 

.14        .68      .18 

1780 

Br  1007 

S-9 

49    9-705 

61.8 

+  3.  692  2  -.0054 

-.013 

—  .0030       o 

.13      .50     .27 

1781 

Br  1012 

4-7 

49  13.498 

76.8 

+  2.  5947  +  .0010 

—  .001 

+  .0002       o 

.11        .51      .20 

1782 

Paris  5347 

5-6 

49  I9-7I9 

95-3 

+  3.0501—  .0008 

—  .004 

+  .0006       o 

.13        .86      .18 

1783 

6  Canis  Maj 

4-3 

49  32-637 

73-6 

+  2.  7876+.  0003 

—  .002 

-  .0093      o 

.04            .22          .09 

1784 

Pi  278 

6-3 

49  35-147 

82.2 

+2.3885  +.0006 

—  .001 

+  .02  20—   3 

.IO            .60         .20 

I78S 

Br  1014 

4.1 

49  58.950 

71.8 

+  2.4889+.ooi2 

—  .001 

—  .0009      o 

.10        .36      .17 

1786 

Br  1006 

5-o 

50  19.291 

73-2 

+  4.3846-  .0136 

-.033 

—  .0024      o 

•09        -33      -IS 

1787 

Br  1016 

6.0 

50  43.662 

72.7 

+  2.  5910+.  OOO9 

—  .001 

+  .0004      o 

.15      .57     .26 

1788 

PulkM  1134 

6.0 

50  55-653 

95-7 

+  3.  3025  -.0024 

—  .006 

—  .0017       o 

.14      .78     .18 

1789 

Br  1018 

4-7 

51  17.294 

74-1 

+  2.6oi8  +  .ooio 

—  .001 

+  .0040      o 

.09      .39    .17 

1790 

L2S3o 

6.2 

51  17.784 

91.7 

+  1.  8903  +  .00  1  o 

—  .001 

+  .OOI2          O 

.13      .78    .19 

1791 

/t  Canis  Maj 

5-3 

5i  3J-724 

64.2 

+  2.  7501  +  .0005 

—  .002 

+  .0005       o 

.08      .36     .18 

1792 

Grw72  674 

5-5 

51  34-480 

95-3 

+  2-5228+.OOII 

—  .001 

—  .0016      o 

.14       .84     .18 

1793 

i  Canis  Maj 

4-4 

51  40.647 

62.3 

+  2.  67  59  +.0007 

—  .001 

—  .OOOI         O 

.07            .39         .20 

1794 

Br  1010 

6-3 

52  14-097 

67-3 

+4-0935-  -0105 

-.023 

—  .0029—    I 

.11             .39         .20 

1795 

i  Volantis 

5-6 

52  35-63I 

86.9 

—  0.6747—  .0272 

+  .003 

—  .0017+     2 

.15            .82         .24 

1796 

Br  1013 

6.4 

52  37-632 

71.1 

+3.  7011-.  0059 

—  .014 

—  .0120+   I 

•08            -33          .15 

1797 

Pi  273 

7.0 

53    i-9!6 

85-7 

+4.9304-  .0236 

-•057 

+  .0006—    I 

.12            .48         .l6 

1798 

Br  1015 

6.6 

53  I7-476 

67.6 

+  3.7069—  .0061 

-.013 

—  .OOI  I          0 

.12            .42         .22 

1799 

Pi  300 

S-6 

53  26.345 

86.0 

+  2.4762  +  .0013 

—  .001 

—  .0036+   I 

.14            .69         .22 

1800 

L  2557 

4-9 

6  53  36.210 

77-3 

+  1.5975-.  oooi 

—  .002 

—  .0008      o 

.16            .80         .31 

1753  S  963.     7*1  o'.'s  76°,  slow. 
1776  OS  159.     s^i-efz  o'/7  12°. 


1762  S  974.     IOM  22"  224°. 
1778  2  982.     7M  6"  160°,  slow. 


CATALOGUE  OF   6 1 88   STARS   FOR    IQOO 


73 


No. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3dt 

|j.'and  ioo  A(i 

Prob.  Errors. 
SEp.  icon'  Sio 

Remarks. 

1751 

o        r          n 

+  16  18  59.27 

59-i 

-3-845-    -492 

It 

+  .05 

-  .013       o 

.12         .49      .28 

33  Geminorum 

1752 

-   2    9  32.58 

95-6 

-3.817-    .431 

+  .04 

+  .029      o 

.13         .89      .18 

1753 

+  5934    1.28 

68.5 

-3-895-   -757 

+  -I7 

-  .047      o 

.08         .25      .13 

14  Lyncis* 

I7S4 

-i5    I55-24 

90.9 

-3.88!-   .387 

+  .03 

—  .019      o 

•13      -75    -19 

A.  Clark.  7«o  i"  290° 

1755 

-51    9    9.92 

86.8 

-3.946-   .205 

+  .01 

—  .080      o 

.16    1.29    .34 

150  Cannae 

1756 

+  13  31  41.03 

76.8 

-3.904-   .482 

+  .05 

—  .Oil         O 

.11      .35    .16 

35  Geminorum 

1757 

-55  25  44-53 

80.8 

-3.947-   .166 

+  .01 

—  .005      o 

.12        .60     .21 

176  Carinae 

1758 

+  77    6  17.44 

78.6 

-3.967-1.263 

+  •59 

-.014-   4 

.05        .25      .09 

24  H  Camelopardi 

1759 

+  21  52  44.75 

63.1 

—  4.000—   .512 

+  .06 

—  .041      o 

.10         .40      .21 

36  Geminorum  d 

1760 

+  23  43  11.83 

94.1 

-4.007-   .519 

+  .07 

—  .016      o 

.12        .90     .19 

1761 

-32  23  34-55 

75-9 

-4-005-   .318 

+  .02 

+  .OOI         0 

.08        .39     .16 

1762 

+  38  59  18.52 

60.6 

-4.004-   .589 

+  .09 

+  .005       o 

.10      .42    .23 

59  Aurigae  * 

1763 

+  34    454-59 

76.6 

—  4.068—   .564 

+  .08 

-  -054      o 

.04        .23      .09 

1764 

+  38  33  46.14 

61.2 

-4.210-   .587 

+  .09 

-.182      o 

.11         .43      .24 

60  Aurigae  \ff 

1765 

-31  35  22.18 

73-3 

-4.038-   .322 

+  .O2 

+  .OII         O 

.13        .60     .26 

} 

1766 

-31  35    4-48 

80.6 

-4.050-   .322 

+  .02 

+  .003      o 

.19        .75      .29 

|83GCamsMaj 

1767 

—  46  30  29.06 

81.4 

-3-733-   -240 

+  .0! 

+  •357      o 

.14        .63      .23 

38  G  Puppis 

1768 

+  38  37  39.24 

63.1 

-4.118-   .586 

+  .09 

—  .027       o 

.11         .39      .21 

6  1  Aurigae 

I7<H> 

—  61  50    1.87 

77-8 

-3.837-   .085 

+  .02 

+  .260+     2 

.09         .46      .l8 

1770 

-34  i456-9° 

73-1 

—  4.100—  .310 

+  .02 

+  .003      o 

.11         .49     .21 

37  G  Puppis 

1771 

+  8  30    7.06 

70.4 

—  4.148—  .464 

+  .05 

-  -033       ° 

.17        .60     .29 

1772 

-502943.72 

79-9 

—  4.207—     .211 

+  .01 

-  .086      o 

.10      .55    .19 

1773 

-5330  19.48 

79-8 

—  4.116—     .184 

+  .01 

+  .025       o 

.13        .58     .22 

18  G  Carinae  A 

1774 

-36    629.56 

82.4 

-4.253-    .299 

+  .01 

—  .070+     I 

.11         .52      .l8 

40  G  Puppis 

1775 

-80  42  29.43 

76.7 

—  4.128+    .704 

+.46 

+  .072+     I 

.06        .56     .20 

1776 

+  58  33  13.90 

72.8 

-4-355-   -741 

+.17 

-.134       o 

.05        .19     .09 

15  Lyncis* 

1777 

-  18  54  34.92 

92.9 

-4.249-   .371 

+-03 

.000      o 

.15         .87      .21 

1778 

+  13  18  17.49 

57-8 

-4-339-   -481 

+  .06 

-.085-  I 

.09         .33      .19 

38  Geminorum  e* 

1779 

+  46  24    3.44 

90.8 

—  4.260—   .632 

+  .12 

+  .006      o 

.13         .58      .I? 

Aurigas  ^* 

1780 

+  25  30    2.71 

58.0 

-4-254-   -524 

+  .07 

+  .013       o 

.IO         .41      .24 

37  Geminorum 

1781 

—  20    6    2.01 

77-7 

-4.266-   .368 

+  .02 

+  .007      o 

.IO         .41      .17 

15  Canis  Maj 

1782 

-   i    o    6.73 

93-i 

-4.290-   .433 

+  .04 

—  .008      o 

.13         .77      .18 

1783 

-n  5447-94 

76.2 

-4-3I5-    -394 

+  -03 

-.015+  I 

.05         .28      .11 

1784 

—  28  24  12.08 

78.9 

-4.741-   .341 

+  .O2 

-•437-  3 

.11         .53      .20 

90  G  Canis  Maj 

1785 

-24    332.32 

75-8 

-4-330-   -352 

+  .O2 

+  .007      o 

.10      .35    .16 

92  Canis  Maj  o  ' 

1786 

+  45  13  26.96 

65.8 

—  4.368—   .622 

+  .11 

—  .002      o 

.09         .28      .15 

Aurigae  <{/  V  16  Lyncis 

1787 

—  20  16  38.26 

74.0 

-4.411-   .367 

+  -03 

—  .010      o 

.13         .48      .22 

17  Canis  Maj 

1788 

+  10    5    9.82 

91.8 

—  4.429—   .468 

+  .05 

—  .Oil         0 

.14         .60      .l8 

1789 

-20    032.44 

77-2 

-4.413-   .369 

+  -03 

+  .036-    i 

.09         .43      .I? 

19  Canis  Maj  (IT)  * 

1790 

-42  14  19.91 

84.4 

-4-433-    -267 

+  .02 

+  .017      o 

.11         .51      .17 

44  G  Puppis 

1791 

-  13  54  50.85 

65-9 

-4.470-   .389 

+  .04 

—  .001       o 

.08         .35      .18 

2997.    8*  3"  340° 

1792 

-22  48  44.27 

96.1 

-4.465-   .356 

+  -03 

+  .008       o 

.15      I.I5      .22 

* 

1793 

-  16  55  28.48 

63-4 

-4.471-   .378 

+  -03 

+  .OII         O 

.08         .34      -l8 

1794 

+  38  ii  22.41 

59-i 

-4.658-    .579 

+  .10 

-.128      o 

.11         -40      .23 

62  Aurigae 

1795 

—  70  50  19.60 

83-4 

-4.532+   .098 

+  .06 

+  .028      o 

.11         .64      .20 

1796 

+  26   12  44.87 

68.1 

-4-477-   -522 

+  .08 

+  .086+    2 

.06         .29      .14 

39  Geminorum 

1797 

+  545941-66 

78.7 

-4.635-   .698 

+  .16 

-  -037       o 

.11         .37      .16 

1798 

+  26      2  59.73 

61.2 

-4.634-   .524 

+  .08 

—  .014      o 

.11         .40      .22 

40  Geminorum 

1799 

-  24  30     0-57 

77-8 

-4-539-   -349 

+  .03 

+  -093      o 

.12         .51      .20 

102  G  Canis  Maj 

1800 

-4835  21.17 

74-4 

—  4.642—    .224 

+  .02 

+  .004      o 

.13         .61      .25 

47  G  Puppis 

I789W.  H.  IOM  n" 


1792    Br  1019  a,  or  Br  3236.     97  G  Canis  Maj. 


74 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i  and  100  A  p. 

Prob.  Errors. 

a  Ep.      100  (i      aio 

M 

h    m         s 

S                             S 

s 

s 

"                //            // 

1801 

51  H  Cephei 

5-4 

6  53  44.29- 

71-5 

+  29.657-  -2.634- 

—  .047-—  80 

.03            .15         .06 

1802 

Pi  3°3 

5-8 

54  30.021 

87-9 

+  2.4577+  -O012 

—  .OOI 

--.0013      o 

.08           .64        .16 

1803 

Br  1020 

6.2 

5431.004 

65-0 

+  3.4492-  .0038 

—  .009 

—  .0009      o 

.12            .40        .22 

1804 

e  Canis  Maj 

i-5 

54  41-756 

70-4 

+  2.3575+  .0013 

.OOO 

+  .OOOI         O 

.03            .20        .08 

1805 

L  2554 

5-2 

54  45-450 

81.6 

+  2.1957+  .0013 

—  .001 

—  .0016       o 

.12            .72         .24 

1806 

10  Geminorum 

5-4 

56  19-233 

67-7 

+  3.6589—    .0060 

—  .012 

—  .0003       o 

.11             .33         .18 

1807 

L  2570 

6.0 

56  59.287 

91.9 

+  2.4644+   .001  1 

—  .OOI 

—  .0018      o 

.12            .75         .18 

1808 

Pulkw  1144 

5-5 

57    1-978 

94-6 

+  2.9463-  .0005 

-.003 

+  .0005       o 

.13            .87          .19 

1809 

P'  3°S 

6.1 

57    9-*3o 

85-5 

+  3.8173-  .0091 

--015 

+  .0121—   7 

•°7        -45      -13 

1810 

<r  Canis  Maj 

3-8 

57  44-127 

81.2 

+    2.3894+     .0012 

.000 

—  .0008      o 

.07            .32         .12 

1811 

Pi  313 

6.2 

57  49-8o6 

85-5 

+    3.2819—     .O027 

—  .006 

—  .0020      o 

.12            .48         .16 

1812 

Br  1026 

5-o 

57  56-913 

81.1 

+    2.9796—     .O007 

-.003 

—  .0001      o 

.08            .38         .I3 

1813 

PulkM  1146 

5-3 

58    5-637 

91.4 

+    3.3255-     .0032 

—  .006 

—  .0006       o 

.15            .78         .21 

1814 

Pi  311 

8-3 

58    9-615 

89.8 

+  3-5545-   -0052 

—  .010 

—  .0078      o 

.IO            .60         .16 

1815 

£  Geminorum 

Var. 

58  10.710 

75-i 

+  3.5613-   .0053 

—  .010 

—  .0003      o 

.03            .l6         .06 

1816 

L  2601 

5-i 

58  25.780 

81.4 

+  1.4583-   -ooi  i 

—  .002 

—  .0021       o 

.l8            .72          .27 

1817 

Br  1029 

3-° 

58  50-925 

79-8 

+  2.5048+  .0010 

—  .001 

—  .0005      o 

,O8            .32          .12 

1818 

Lai  13706 

6.1 

59    9-785 

99-4 

+  2.9550-   .0007 

-.003 

—  .0003       o 

.15          1.  12         .19 

1819 

y  Canis  Maj 

4.1 

59  14-052 

72.8 

+  2.7143+  .0004 

—  .OOI 

—  .OOOI          0 

.03            .21          .09 

1820 

Br  1025 

6.2 

59  I7-I95 

66.5 

+  3.6151—   .0060 

—  .on 

.0000      o 

.13            .42         .22 

1821 

L  2621 

6.2 

5932.140 

83-5 

+  0.9309-   .0049 

-.005 

-.0088+     2 

.14            .80         .25 

1822 

Pi  316 

5-9 

6.  59  36-I44 

74-o 

+    3.9598-     -0102 

—  .019 

—  .0044      o 

•J3        -75      -3° 

1823 

L  2646 

5-i 

7    o   0.900 

86.9 

—    0.0940—     .Ol8o 

-.005 

—  .0064+10 

.18      .82     .26 

1824 

Br  1022 

7.0 

o  40-387 

72.7 

+  5-3937-   -0380 

-.083 

—  .0009—    I 

.08      .38    .16 

1825 

Pi  310 

8.0 

o  47.279 

80.5 

+  5-3893-   -0379 

—  .082 

-.0003-  I 

.15      .70     .26 

1826 

L  2607 

5-4 

052.574 

78.6 

+  1.9015+  .0009 

—  .OOI 

—  .0019+   I 

.14      .60    .23 

1827 

L  2608 

S-9 

o  53-308 

87.2 

+  1.8389+  .0014 

—  .OOI 

—  .0110+  4 

.13           .69         .20 

1828 

Pi  337 

7-4 

o  54-913 

89.8 

+  1.8391+  .0014 

—  .OOI 

—  .0107+  4 

.18        .86      .25 

1829 

L  2624 

5-2 

i  17.634 

86.6 

+  I-5593-   -0003 

—  .002 

—  .0072+    2 

.15        .92      .26 

1830 

L  2640  m 

5-8 

i  42.982 

81.7 

+  0.9252—   .0058 

-.005 

—  .0006      o 

.20         1.04        .35 

1831 

Dpt  818  m 

5-4 

i  58.948 

88.5 

+  2.8175—   -o001 

—  .002 

^=-0012          0 

.12            .60        .17 

1832 

Pulksjii57 

6.0 

2  25.132 

91.7 

+  3.2456-   .0028 

—  .006 

+  .0009      o 

.12        .86      .20 

1833 

L  2642 

5-4 

2  26.424 

84.9 

+  1.1189—   -0040 

—  .004 

—  .0015      o 

.13            .70        .22 

1834 

L  2625 

6-3 

2  36-293 

86.4 

+  2.0586+  .001  1 

—  .OOI 

.0000      o 

.14           .87         .25 

1835 

Br  1030 

5-7 

2  37-952 

69.0 

+  3.4428-   .0047 

—  .008 

—  .0007—    I 

.09           .36         .17 

1836 

L  2631 

7-i 

2  47.170 

86.1 

+  1.9036+  .0007 

—  .OOI 

—  .0032       o 

.14        .88      .26 

1837 

OMensae 

5-6 

2  53-859 

92.0 

-  3.7266-   .1452 

+.138 

-.0058-  I 

.13            .92         .21 

1838 

L  2617 

6.0 

3  n-736 

94-2 

+  2.5070+  .0010 

—  .001 

-.0013      o 

.13            .98         .20 

1839 

8  Canis  Maj 

1.8 

4  19-533 

76.4 

+  2.4391+   .0011 

—  .OOI 

—  .0004       o 

.04            .22         .09 

1840 

r  Geminorum 

4-5 

4  46.525 

68.7 

+  3-8237-    -0093 

-.015 

—  .0019      o 

.08            .33          .16 

1841 

Br  1032 

5-i 

4  46-677 

81.8 

+  4-1338-    -0137 

-.023 

+  .0041       o 

.05        .30      .10 

1842 

L  2651 

6.1 

4  49-439 

87.4 

+  I-4375-    -0014 

—  .002 

-.0033+  I 

.13            .70         .20 

1843 

Br  1034 

5-9 

5  10.986 

72.1 

+  3-7252-   -0081 

-.013 

-.0013      o 

.08            .38         .l6 

1844 

Br  1041 

5-i 

5  i5-684 

76.0 

+  2.9808-   .0008 

-.003 

.0000+   I 

•07        -33      -!3 

1845 

L  2649 

4-9 

5  29-607 

80.8 

+  2.0144+   -ooio 

—  .OOI 

^.OOII          0 

.10        .45      .17 

1846 

Groomb  1272 

5-8 

5  35-669 

80.6 

+  4.6916—   .0242 

-.044 

+  .0020       o 

.12           .38         .17 

1847 

Pi  13 

5-9 

5  35-748 

83.8 

+  2.4709+   .0010 

—  .OOI 

—  .0017       o 

.13        .66      .21 

1848 

Br  1045 

5-5 

6  17.009 

68.2 

+  3.0678—   .0017 

—  .004 

—  .0015       o 

.14        .48      .24 

1849 

L  2647 

5-8 

6  18.307 

92.9 

+  2.4095+  .001  1 

.000 

—  .0009      o 

.13            .87         .20 

1850 

Br  1038 

6.1 

7    6  21.830 

71.0 

+  3.6491-  .0073 

—  .012 

—  .0014       o 

.10       .39      .18 

1830  Dunlop.     6?3-7*'i  3" 2  178°, 


1831/3328. 


i 7"  35°° 


CATALOGUE  OF   6 1 88   STARS   FOR    IQOO 


75 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3°. 

n'and  iooAp' 

Prob.  Errors. 
SEp.  loop.'  Sio 

Remarks. 

1801 

01                 ft 

+  87    12   20.38 

75-6 

-4.696-4.197 

tf 

-.038+   7 

//          it       a 

.02         .14      .05 

Pi  21  Groomb  1141 

1802 

—  25  16  42.09 

86.3 

-4.708-    .346 

+  •03 

+  .014      o 

.08         .52      .15 

105  G  Canis  Maj 

1803 

+  1613    i-53 

64.1 

-4.736-    .487 

+  .06 

—  .012       o 

.12        .38      .21 

41  Geminorum 

1804 

—  28  50    9.28 

7i-3 

-4.740-    .332 

+  •03 

—  .001       o 

.04      .23    .10 

Cape  9M  8"  161° 

1805 

-33  58  32.88 

72-5 

-4-72I-    -309 

+  .02 

+  -023       o 

.11         .59     .25 

49  G  Puppis  / 

1806 

+  24  21   28.52 

67.8 

—  4.891-    .516 

+  .08 

—  .014      o 

.09        .34     .17 

1807 

-25      426.59 

87.9 

-4-9*5-   -346 

+  .03 

+  .019      o 

.14        .8l      .23 

113  G  Canis  Maj 

1808 

-   5  34  46.18 

91.0 

-4.943-   .414 

+  •05 

—  .006      o 

.12         .71      .18 

1809 

+  293017.73 

81.7 

-5-771-   .539 

+  .09 

-•823-     2 

.07         .38      .13 

1810 

-27  47  29.51 

79-6 

-4.996-   .335 

+  •03 

+  .OOI          0 

•O?         -34      .13 

1811 

+  9  17    1.29 

77-5 

-4.997-   .461 

+  .06 

+  .009      o 

.11         .38      .17 

1812 

-   4    5  38.86 

76-7 

—  5.007—   .418 

+  .05 

+  .008      o 

.08         .36      .14 

19  Monocerotis 

1813 

+  11    553.62 

82.5 

-5.059-   .467 

+  .06 

-  .032      o 

.14         .6l      .22 

1814 

+  204435.52 

79-4 

—  4.989-   .498 

+  .08 

+  .044+  I 

.09         .38      .14 

1815 

+  2043    I-27 

69.0 

-5.042-   .500 

+  .08 

-.008      o 

.03         .I?      .08 

3M6  to  4Ms 

1816 

-5i  I535-87 

80.6 

-5-055-   -203 

+  .02 

+  .OOI         O 

.14         .63      .23 

23  G  Carinae 

1817 

82.2 

-5-097-   -351 

+  •03 

—  .006      o 

.07         .33      .12 

24  Canis  Maj  o2 

1818 

-    5  I0  33-86 

98-3 

-5.113-   .414 

+  .05 

+  .005      o 

.14      1.09      .ig 

1819 

-1529    7.77 

72-9 

-5.138-   .380 

+  .04 

—  .014      o 

.04         .28      .11 

1820 

+  22  47  13.82 

72.8 

-5.149-   .507 

+  .09 

—  .021      o 

.09         .36      .l6 

44  Geminorum 

1821 

-5847  57-36 

82.0 

-5-033-   -128 

+  .02 

+  .116+   i 

.12         .64      .22 

24  G  Carinse 

1822 

+  343733-72 

70.8 

-5-223-  -555 

+  .11 

-.068+   i 

.10      .57    .24 

1823 

-67  46  44.30 

82.8 

—  4.950+  .016 

+  .05 

+  .240+   i 

.14         .63      .22 

6  G  Volantis 

1824 

+  60  56  58.40 

64-4 

-5-295-  -757 

+  .23 

-  .050      o 

.08         .28      .15 

17  Lyncis 

1825 

+  6054    4.41 

75-3 

-5-297-  -756 

+  .23 

—  .042       o 

.14         .56      .24 

1826 

—  42  ii  21.98 

77-9 

—  5.202—  .265 

+  .02 

+  .060      o 

.12         -55      .21 

59  G  Puppis  C 

1827 

-43  28    8.97 

84.0 

-4.894-  .255 

+  .O2 

+  •370+     2 

.10      .52    .17 

1  60  G  Puppis 

1828 

-43  28  19.84 

81.4 

-4-904-  -255 

+  .02 

+  .362+     2 

.14         .57      .22 

)2l"   122° 

1829 

-49  26  15.73 

82.6 

-5.154-  .216 

+  .02 

+  .144+     I 

.11         .63      .20 

6  1  G  Puppis  H 

1830 

-59    142.89 

79.0 

-5-337-  -128 

+  .02 

—  .004      o 

.15         .84      .30 

26  G  Carinae* 

1831 

-ii    823.59 

81.7 

-5-372-   -393 

+  .04 

—  .016      o 

.IO         .44      .l6 

* 

1832 

+  7  37  41-73 

91.2 

-5.418-   .454 

+  .06 

—  .025      o 

.12         .82      .20 

1833 

-563552-15 

84-4 

-5.392-  .155 

+  .02 

+  .O02          O 

.11         .6l      .19 

27  G  Carinae 

1834 

-38  13  44.54 

85-4 

—  5.402—  .287 

+  .02 

+  .006      o 

.12         .69      .21 

63  G  Puppis 

1835 

+  16    5  25.41 

69.0 

-5.522-  .481 

-.07 

—  .III         O 

.08         .32      .15 

45  Geminorum* 

1836 

-42  10  26.53 

80.7 

-5.415-  .264 

+  .02 

+  .009      o 

.13         .64      .23 

64  G  Puppis 

1837 

-79  1635.90 

91.4 

-5.436+  .525 

+  -40 

-.003+  I 

.11         .90      .20 

• 

1838 

-  23  41    4.01 

89.8 

-5-45I-   -349 

+  •03 

+  .007      o 

.14         .94      .24 

122  G  Canis  Maj 

1839 

—  26  14    3.78 

76.8 

-5-55I-    .339 

+  .002         0 

.05      .25    .10 

1840 

+  30  24  33.12 

66.8 

-5-638-    -S32 

+  .10 

-  .047      o 

.07        .30     .15 

ft  1009  IIM  2"  180° 

1841 

+  39  29    1.35 

72.8 

-5-594-  -577 

+  •13 

-.003-     I 

.05      .23    .10 

63  Aurigae 

1842 

-51  48  40.99 

84-4 

-5.542-   .198 

+  .02 

+  •053          ° 

.10      .53    .17 

28  G  Carina:  (P) 

1843 
1844 

+  27    i  15.20 
-   4    4  5l-33 

68.9 
71.1 

-5.674-  .519 
-5.414-   .414 

+  .10 

+  .05 

—  .049      o 
+  .217      o 

.07    .32  -15 

.07     .31   .14 

47  Geminorum 
20  Monocerotis 

1845 

-39  2941.93 

77.2 

-5.648-  .279 

+  .02 

+  .003      o 

.11     .47   -19 

67  G  Puppis  A 

1846 

1847 
1848 

+  51  35  40.28 

-25    4    9-55 
—  08  12.42 

75-6 
80.0 

73-9 

-5-657-   -654 
-5.664-   .343 
—  5.721—   .426 

+  .18 

+  -03 
+  .06 

+  .003       o 
—  .004      o 
—  .004      o 

•12        -35      -17 
.11         .52      .19 
.11        .47      .20 

126  G  Canis  Maj 
21  Monocerotis 

1849 
1850 

-27  1940.87 
+  24  17  45.06 

91.2 
69.6 

-5.698-  .334 
-5-776-   .507 

+  .03 

+  .10 

+  .O2I          O 

—  .052      o 

.15      1  .06      .25 
.08        .36     .17 

128  G  Canis  Maj 
48  Geminorum 

1835  02 


xof  S  4"  39° 


76 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H>  and  100  A  n 

Prob.  Errors. 
aEp.      loop     aio 

M 

h    m        s 

s               s 

s 

8 

//              //           // 

1851 

Pi  285 

6-3 

7    6  24.221 

74.0 

+  11.5837-  .3776 

-1.405 

+  .0033-   8 

.07          .36       .15 

1852 

Br  1039 

7.2 

6  40-394 

85-4 

+  3.6944-  .0078 

—    .OI2 

.0000       o 

.12           .40        .16 

1853 

Br  1047 

4.2 

6  45.486 

72.2 

+  3.0652—  .0016 

—    .004 

+  .0002       o 

.07            .28        .13 

1854 

Br  1031 

5-4 

7  11.049 

65.0 

+  5.  2605-  .0399 

—    .072 

-.0115-   6 

.09           .32         .16 

1855 

Paris  8843 

6.0 

7  22.809 

95-8 

+  2.5879+.  0007 

—    .001 

—  .0005       o 

.15           .98         .20 

1856 

Br  1046 

5-3 

7  37-756 

74-i 

+  3.4478-  .0051 

-  .008 

+  .0008      o 

•06        .33      .13 

1857 

L  2673 

5-i 

8    6.339 

83-7 

+   1.6118—  .0001 

—  .002 

-.0023+  3 

.18      i.  06      .33 

1858 

Br  1053 

6.1 

8    6.716 

78.0 

+   2.4547  +  .0010 

—  .001 

—  .0006       o 

.11        .46      .19 

1859 

Br  1048 

7-2 

8  20.440 

84-3 

+  3.6647-.  0077 

—  .012 

—  .0001       o 

.12            .51         .18 

1860 

Groomb  1281 

5-7 

8  24.663 

65.0 

+  4.4661—  .0209 

-  -034 

+  .0038-     2 

•15        -66      .33 

1861 

Br  1049 

6.2 

8  35.060 

73  -° 

+  3  -673  *  --0079 

—  .012 

+  .0037-     I 

.10        .48      .20 

1862 

L  2668 

6.1 

8  52.694 

91.0 

+    2.I3OI  +  .OOII 

—  .001 

—  .0019      o 

.13        .72      .19 

1863 

L  2672 

5-5 

8  57.087 

85-7 

+  1.  9866  +.0008 

—  .001 

—  .0021       o 

.11        .57      .18 

1864 

BD  +  i2°  1469 

6.0 

8  58.161 

OI.2 

+  3-3463-  -0042 

—  .007 

—  .0041       o 

.11        .90      .14 

1865 

Pi  29 

5-6 

9    5-693 

83-4 

+  3.1475-.  0024 

—  .004 

+  .OO2O         O 

.16        .90      .29 

1866 

•/  Volantis 

5-3 

9  33-547 

83-9 

-  0.4924-  .0324 

—  .007 

+  .0040+  5 

.18        .84      .28 

1867 

y2  Volantis 

3-8 

9  35-892 

76.2 

—  0.4916-  .0323 

—  .007 

+  .0050+  6 

.09        .48      .18 

1868 

Br  1050 

6.1 

9  42-483 

79-6 

+  3.75  io-  .0090 

—  .014 

—  .0014      o 

.08        .34      .13 

1869 

L  2687 

4-5 

9  42-539 

75-i 

+   1.7100     .0000 

—  .001 

-.0143+   i 

•13        -57      -23 

1870 

L  2676 

6.9 

9  56.347 

84.0 

+    2.3082+.  OOI2 

.000 

—  .0009      o 

.14        .78      .25 

1871 

Pi  292 

5-3 

10    3.203 

70-5 

+  12.8945-  .5213 

—  1.961 

+  .0029—18 

.05            .21         .IO 

1872 

Br  1059 

4-7 

10  10.650 

71.0 

+  2.4453  +  .  ooio 

.000 

—  .0005      o 

.10        .34      .17 

1873 

Br  1055 

6.8 

10  12.325 

63-3 

+  3-0715-  -oo^ 

-  -003 

—  "^OII         0 

•15        -54      -29 

1874 

L  2690 

5-i 

10  13.870 

81.4 

+   1.7958—  .0001 

—  .001 

-=-  .OO2O—     2 

.13        .64      .23 

1875 

L  2691 

Var. 

10  29.162 

82.7 

+  i.  8309  +.001  1 

—  .001 

+  .0093+   4 

.16        .90      .30 

1876 

Br  1040 

8.0 

10  31.648 

72.1 

+  5.  2283-.  0396 

—  .069 

+  .0104—    I 

.13        .54      .24 

1877 

CD  Canis  Maj 

3-8 

10  45.267 

78.8 

+   2.4345  +  .0010 

.000 

^".0003       o 

.14        .48      .20 

1878 

Br  1061 

6.0 

10  48.727 

84-9 

+  2.4249+.  ooio 

.000 

-r  .OO26        O 

.14        .81      .25 

1879 

Arm  1649 

4.9 

10  56.142 

82.7 

+  4.5698-  .0237 

-  -037 

-.0005      o 

.12            .75          .24 

1880 

Br  1052 

6.0 

ii    5.062 

80.3 

+  4.1800—  .0160 

—  .024 

—  .OOIO         O 

.05            .27          .09 

1881 

Br  1043 

7-i 

ii  12.461 

71.8 

+  5.  2293-.  0402 

-  .068 

+  .0024—    I 

.11             .57          .24 

1882 

L2688 

5-5 

ii  28.880 

89.6 

+     2.32O5  +  .001  2 

.000 

—  .0022       o 

.14        .86      .22 

1883 

Paris  8971 

5-6 

ii  42.697 

97-4 

+  2.7i69+.ooo2 

—  .001 

—  .0050  .     o 

.14     1.05     .19 

1884 

L  2711 

4.9 

ii  52.712 

83.6 

+   1.6566—  .0005 

—  .002 

+  .0010      o 

.16      .84     .28 

1885 

L  2710 

6.0 

ii  53.682 

83.8 

+     I.72H—  .0002 

—  .001 

-  .0034      o 

.20      i.io      .35 

1886 

X  Geminorum 

3-5 

12  20.797 

79-6 

+  3.4507-.  0057 

-  .008 

-  -0033      o 

.03        .16      .06 

1887 

Lai  14200 

5-i 

12  23.892 

92.4 

+    2.  5294+.  OOO8 

.000 

—  .0001       o 

.12            .82         .19 

1888 

Lai  14202 

6.9 

12  25.612 

94-5 

+   2.5264+.  0009 

.000 

—  .003  2         O 

.13            .96        .20 

1889 

K  59 

4.8 

12  34.488 

85.2 

+   2.4O39+.OOH 

.000 

—  .0015      o 

.13            .64        -21 

1890 

L27I3 

5-9 

13    4-355 

88.4 

+  2.0735  +  .OOIO 

.000 

—  .0023      o 

.15            .80        .23 

1891 

L  2714 

5-2 

13  15-825 

88.0 

+  2.i36i  +  .oon 

.000 

—  .0004      o 

.13            .82         .22 

1892 

L  2732 

5-6 

13  22.388 

88.2 

+   1.7301—  .0001 

—    .001 

—  .0009      o 

.20        .88      .27 

1893 

Grweo  564 

8.0 

13  25.282 

79-3 

+  3-5891-  -0073 

—  .010 

—  .OOI  I         O 

.IO           .42         .l6 

1894 

Br  1051 

6.6 

13  3*-7SS 

72.8 

+  5.2779-  .0428 

—  .070 

+  .OOII          0 

.10        .39      .18 

1895 

Cord  9286 

8.2 

13  33-6i4 

95-7 

+  2.ii69+.oon 

.000 

—  .0021       o 

.18         1.23         .25 

1896 

*  Puppis 

2-5 

13  36.678 

75-9 

+   2.ii89+.oon 

.000 

—  .0007       o 

.07            .28         .12 

1897 

Groomb  1295 

5-8 

14    3.207 

70.2 

+    4.3546-  .0202 

-  .028 

-  .0034       o 

.16           .64        .30 

1898 

8  Geminorum 

3-4 

14    9.098 

68.8 

+  3-5873-  -0074 

—  .010 

—  .0013      o 

.02            .l6         .07 

1899 

Br  1067 

S-o 

14  30.530 

82.8 

+   2.  497  5  +  .0008 

.000 

—  .OOIO         0 

.09            .46         .l6 

1900 

Br  1035 

7-3 

7  14  32.446 

70.8 

+  7.2948—  .1228 

-  -253 

+  .0083      o 

.11            .45         .21 

1861  Hough  343.     i2M  23"  263°. 
1873  ft  1268.    IIM  4"  310°;  02  169? 


1862  8M  3"  65°. 
1875  3I?4  to  6*2. 


CATALOGUE  OF  6 1 88  STARS  FOR  1 900 


77 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

P'  and  100  A  p.' 

Prob.  Errors. 

5Ep.  ioop'  Sio 

Remarks. 

1851 

+  81  26  21.62 

71.6 

It                             H 

-5.755-I.6l7 

H 

+  1.58 

—  .028       o 

;/              it          n 

•07      -33    -H 

Groomb  1255 

1852 

+  25  5456-°8 

79-5 

-5.768-    .513 

+     .10 

—  .018       o 

•ii      -35    -IS 

49  Geminorum 

1853 

-  o  19  37-38 

72.7 

-5.746-    .426 

+   .06 

+  .011         O 

.07      .29    .13 

22  Monocerotis  (8) 

1854 

+  594856.53 

60.7 

-6.051-    .730 

+   .24 

-.258+     2 

.07      .23    .13 

1  8  Lyncis 

1855 

-2043    2.29 

93-6 

-5.782-    .358 

+   -03 

+  .027      o 

.15        .99     .22 

130  G  Canis  Maj 

1856 

+  16  19  43.17 

67-3 

-5.880-    .478 

+   .08 

-  .050      o 

.06        .24     .12 

51  Geminorum 

1857 

—  48  46  17.48 

79-7 

-5.675-     .222 

+     .02 

+  .195      o 

.14        .75      .27 

68  G  Puppis 

1858 

-  25  46  30.37 

79.0 

-5.868-     .340 

+     .03 

+  .OO2         O 

.12         .54      .21 

26  Canis  Maj 

1859 

+  2452  55-42 

83.0 

-5.906-     .508 

+     .10 

—  .016      o 

.11         .54      .18 

1860 

+  47  25    3-i7 

64.1 

—  6.076—     .62O 

+     .16 

—  .180      o 

.12         .51      .26 

1861 

+  25    331-35 

69-3 

—  6.002—   .510 

+     .10 

—  .092      o 

.09         .45      .20 

52  Geminorum* 

1862 

-36  22  32.45 

87.9 

-5-939-   -294 

+     .02 

—  .004      o 

.12         .69      .19 

69  G  Puppis* 

1863 

-40  19  46.93 

77.0 

-5.964-   .274 

+      .02 

-'.023      o 

.11         .48      .19 

70  G  Puppis  E 

1864 

+  12   17   16.31 

98.8 

-5.954-   .463 

+     .07 

—  .012+   I 

.12         .83      .15 

BBVl3obsns.  1863 

1865 

+  3  16  58.25 

77-8 

-5-953-   -436 

+     .06 

.000      o 

.14         .65      .25 

1866 
1867 

-70  20      4.73 

—  70  20  11.31 

82.0 
80.2 

-5.905+   .070 
-5.901+   .070 

+      .08 
+     .08 

+  .086-  I 
+  .094—   I 

.15         .67      .24 
.08         .54      .18 

JDunlop.    13"  300° 

1868 

+  28    4  16.98 

76.0 

-6.013-   .519 

+      .10 

—  .009      o 

.O?         .31      .13 

53  Geminorum 

1869 

-4635  32-3° 

76.4 

-5.915-   .233 

+     .02 

+  .089+    2 

.IO         .51      .20 

7  1  G  Puppis  / 

1870 

-  30  54  43.05 

74-6 

—  6.026—   .318 

+      -03 

-.003       o 

.13         .56      .24 

137  G  Canis  Maj 

1871 

+  82  36  16.00 

71.0 

—  6.078—  1.790 

+  2.  II 

-  .045      o 

.04         .20      .09 

25  H  Camelopardi 

1872 

—  26  10  48.08 

75-4 

-6.037-   .337 

+     -03 

+  .006      o 

.09         .36      .l6 

27  Canis  Maj 

1873 

+  00  44.41 

68.8 

-6.055-   -424 

+     .06 

—  .010      o 

.10        .43      .20 

24  Monocerotis* 

1874 

-45    032.17 

79.6 

-6.158-   .247 

+     .02 

—  .III         O 

.IO        .51      .18 

72  G  Puppis  Z,1 

1875 

-44  2836.93 

77-7 

-5-754-  -253 

+     .02 

+•315-  I 

•13      -67    -25 

73  G  Puppis  D  * 

1876 

+  59  18  17.69 

66.6 

—  6.100—   .726 

+     .24 

—  .028—     2 

.12        .39     .21 

45  Camelopardi 

1877 

-2635  56.92 

77.8 

-6.099-   -330 

+     -03 

—  .008      o 

.13         .54      .22 

28  Canis  Maj,  140  G,  <a 

1878 

-2651  47-62 

83.0 

-6.127-   .334 

+     .03 

-.031      o 

.13      1.02      .30 

141  G  Canis  Maj 

1879 

+  49  38  34-51 

80.3 

—  6.114—   .632 

+     .18 

-.008      o 

.11         .64      .22 

1880 

+  41    3  39.22 

70-5 

—  6.119—   -578 

+     .14 

.000      o 

.06         .25      .12 

64  Aurigas 

1881 

+  59  26    1.98 

65.3 

—  6.160—   .724 

+     .24 

-.031       o 

.10      .31    .17 

46  Camelopardi 

1882 

-303041.56 

83.2 

-6.144-   .319 

+     .03 

+  .008       o 

.14         .84      .26 

142  G  Canis  Maj 

1883 

-  15  24  30.87 

94-2 

-6.159-   .374 

+     -04 

+  .012+     I 

.14        .95      .21 

1884 

-48    548.75 

87-3 

—  6.172—  .227 

+      .02 

+  .013      o 

.14        .97      .26 

78  G  Puppis 

1885 

—  46  40  28.58 

77.1 

—  6.207—  -.236 

+      .02 

—  .021          O 

.15        .69     .27 

77  G  Puppis 

1886 

+  1643  14.83 

74-9 

-6.272-   .475 

+      .08 

—  .048      o 

.03        .17      .07 

5  1061.  IOM  9'.'s  33° 

1887 

—  23    8  16.42 

9i-3 

-6.227-   .348 

+     .04 

+  .001          O 

.12         .85      .20 

1  145  G  Canis  Maj  * 

1888 

-23    8    3.32 

92.8 

-6.188-   .347 

+     .04 

+  .042       o 

.13         .94      .21 

f  146  G  Canis  Maj 

1889 

-27  42  15.46 

82.0 

-6.202-     .330 

+     -03 

+  .040      o 

.12         -57      .20 

147  G  Canis  Maj 

1890 

—  38    826.22 

84.0 

-6.287-     .284 

+     -03 

-.003      o 

.12         .63      .20 

79  G  Puppis 

1891 

-36  2449.87 

79-2 

-6.314-     .293 

+      -03 

—  .014      o 

.12         .58      .22 

80  G  Puppis 

"1892 

-4635  49-10 

80.8 

-6.287-     .237 

+     .02 

+  .O22          0 

.15         .60      .23 

8  1  G  Puppis 

1893 

+  22   12  24-73 

82.3 

-6.306-     .494 

+     .09 

+  .007       o 

.11         -47      -17 

1894 

+  60    5  13.71 

62.8 

-6.315-     .728 

+     .26 

+  .007      o 

.09         .26      .15 

47  Camelopardi 

1895 

-3656      2.13 

90.2 

—  6.300—     .290 

+     -03 

+  .024      o 

.17         .83      .24 

1896 

-3655      4.47 

72.4 

-6.331-     .290 

+     .03 

—  .002      o 

.07        .28     .12 

1897 

+  45  2447.03 

60.8 

-6.360-     .599 

+     .16 

+  .005      o 

.13        .47      .26 

1898 

+  22      9  59.39 

65-5 

-6.390-     .493 

+     .10 

—  .017       o 

.03        .14     .07 

S  1066.  8M5  7"  207° 

1899 

-2422  34.41 

83-5 

-6.4II-     .342 

+     .04 

—  .008       o 

.08        .41      .14 

29  Canis  Maj 

1900 

+  73  16  26.02 

68.6 

—  6.400—  I.  OO6 

+    -59 

+  .006-  I 

.09        .32      .16 

SeeGrw«,655* 

1887-8  h  3945.    aj"  60°. 


1900-4  S  1051.     31"  82°;  9M  i'.'4  »79° 


78 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3, 

H-  and  100  A  (i 

Prob.  Errors. 
aEp.     ioo(i     aio 

M 

h    m       s 

A                     S 

s 

s 

a            n         a 

1901 

Br  1069 

4-5 

7  H  33-705 

79-5 

+  2.4874+.  0009 

.000 

—  .0006      o 

.10        .52      .19 

1902 

Groomb  1297 

8.0 

14  35.206 

70.7 

+  4.5966-  .0258 

-  -038 

—  .0029—    I 

.12            .51          .24 

1903 

Br  1057 

7-8 

14  36.780 

73-5 

+  4.5986—  .0258 

-  -037 

—  .0009—    I 

.09       .38      .16 

1904 

Grw<o  655 

7-8 

14  39.878 

74.8 

+  7.  2967-.  1231 

-  -253 

+  .0107—    I 

.12            .51          .22 

1905 

Br  1054 

7-2 

14  41-303 

78.6 

+  4.9130-  .0335 

-  .05! 

+  .0003—   I 

.12            .58         .22 

1906 

Br  1056 

5-9 

14  42-585 

84.9 

+  4.9126-  .0335 

-  .051 

+  .OOO2—     I 

.05            .30         .09 

1907 

L  2733 

4-8 

14  45.080 

89.6 

+    2.I332  +  .OOIO 

.000 

—  .0006      o 

.12            .64         .l8 

1908 

Yarn  3030 

5-6 

14  46.918 

94-o 

+  2.44I4+.OOIO 

.000 

—  .0024      o 

.13            .94         .20 

1909 

R  Canis  Maj 

Var. 

14  56.626 

97-9 

+  2.7I73  +  .OOOI 

—    .001 

+  .0128-     I 

•13          1-35         -21 

1910 

v  Puppis 

5-3 

15    4-843 

89.4 

+  2.I33I  +  .OOIO 

.OOO 

—  .0009      o 

•H       -75      -2i 

1911 

L  2739 

5-4 

15    8.920 

86.4 

+  2.  047  7  +  .0009 

.OOO 

+  .0009      o 

.15      .72    .23 

1912 

Br  1063 

5-3 

15  21.805 

69.2 

+  4.0171-.  0143 

—    .019 

—  .0066      o 

.11      .52     .24 

1913 

L  2738 

6.8 

15  30.389 

88.8 

+    2.2329+.OOII 

.OOO 

—  .OOI  I         O 

.14      .96     .25 

1914 

Br  1065 

5-5 

16    2.848 

64-5 

+  3-5438-  -0072 

—    .009 

-  .0043       o 

.10        .32      .17 

1915 

Paris  9019 

6.0 

16  23.056 

98.2 

+  2.7528     .0000 

—    .OOI 

—  .0006      o 

.15      .90     .18 

1916 

Pi  334 

6.8 

16  27.335 

74-3 

+  11.  1372-.  3960 

—  1.  122 

+  .OOI2—     I 

•07        -33      -T4 

1917 

8  Volantis 

3-9 

16  52.801 

72.0 

-  0.0195-.  0253 

—    .OIO 

-.0035-     I 

.10           .45         .20 

1918 

Pi  88 

6.4 

16  57-937 

80.4 

+  2.4647  +  .OOIO 

.OOO 

—  .0003      o 

.13            .60         .22 

1919 

Br  1064 

5-5 

17  13.048 

65.6 

+  4-1637-.  0173 

—    .022 

+  .OOOI         0 

•ii         -45      -23 

1920 

Pi  85 

6-5 

i?  14-332 

86.0 

+  2.8792—  .0008 

—    .OOI 

+  .0019      o 

.09      .90    .23 

1921 

Br  1068 

5-2 

17  22.758 

68.2 

+  3.6618-  .0089 

—    .Oil 

—  .0051       o 

.10        .40      .20 

1922 

Br  1070 

6-5 

17  27.634 

70.9 

+  3.6096—  .0082 

—    .OIO 

—  .0015      o 

.12            .48         .22 

1923 

Pi  86 

6.1 

1731.136 

81.6 

+    2.9444—  .0012 

—    .002 

.0000       o 

.12            .78         .25 

1924 

Paris  9057 

5.0 

17  49.261 

96.8 

+    2.  6422  +  .OOO4 

.OOO 

—  .0005       o 

.14         I.  O6         .20 

1925 

L2783 

5-6 

1  8  12.448 

87.4 

+    1.4625—  .OO22 

~    -003 

-  .0039      o 

.20         1.42         .38 

1926 

Br  1071 

5-9 

18  20.165 

64.8 

+  3.738i-.oioi 

—    .OI2 

+1.0010      o 

.11             .42          .22 

1927 

L  2798 

18  23.751 

86.1 

+  1.1942—  .0046 

—    .OO4 

—  .0040+    I 

.18            .82          .27 

1928 

Br  1066 

4^6 

19  10.290 

76.3 

+  4.5394-  .0261 

-    -034 

—  .0006—    I 

.07             .34         .14 

1929 

L  2769 

5-6 

19  11.306 

83-4 

+  2.2949  +  .OOH 

.OOO 

+  .OOOI         O 

•13        -75      -24 

1930 

Br  1074 

5-4 

19  24.888 

71.6 

+  3-3350-  .0049 

—    .OO6 

—  .0014      o 

.10        .40      .19 

1931 

i  Geminorum 

3-9 

19  31.007 

76.4 

+  3-73I9--OI°4 

—    .OI2 

—  .0086      o 

.03        .16      .06 

1932 

L  2773 

5-6 

19  43-255 

83-7 

+    2.  2867  +  .001  1 

.OOO 

—  .0003      o 

.12            .64         .21 

1933 

Pi  103 

7-o 

19  55.206 

81.0 

+    2.  3699  +.001  1 

.OOO 

-  .0035      o 

.11             .66         .22 

1934 

17  Canis  Maj 

2-3 

20     8.387 

75-o 

+  2.3726+.OOH 

.OOO 

—  .0007       o 

.06            .26         .11 

1935 

Pi  100 

5-3 

20     8.957 

80.9 

+  2.7099     .0000 

—    .OOI 

—  .0023       o 

.16        .88      .30 

1936 

«  Canis  Min 

5.1 

20  10.954 

62.8 

+  3.  2813-.  0044 

-  -005 

—  .0005      o 

.13      .44     .24 

1937 

Pi  67 

6.0 

2O  28.631 

72.0 

+  6.2855-.  0854 

-  .138 

-.0005-     2 

.04        .27      .11 

1938 

Lai  14451 

6.0 

20  32.744 

98.8 

+    2.  7558-  .0002 

—    .OOI 

—  .0140      o 

.15      1.  10      .19 

1939 

L  2793 

5-5 

20  53-944 

85-2 

+    2.  2986+.  OOI  I 

.000 

—  .0019      o 

.13            .70         .22 

1940 

Pi  97 

6.8 

20  55.709 

77-7 

+  3-5503-  -°°8o 

—   .OIO 

—  .0220      o 

.18            .78         .31 

1941 

Br  1076 

6.1 

21      2.672 

7i-3 

+  3-5393-  -0076 

—  .009 

—  .0007      o 

.13             .44         .21 

1942 

L  2792 

6.0 

21  16.569 

94-4 

+    2.  4863  +  .OOO9 

.000 

—  .OOI  I          0 

.13            .96         .20 

1943 

Pi  92 

5-9 

21   24.527 

67-5 

+    4.4840—  .0256 

-  .032 

+  .OOIO—     I 

•15            -52         .27 

1944 

/3  Canis  Min 

2.9 

21  43.697 

75-9 

+    3-2559-  -0043 

-  .005 

-  .0034       o 

.03            .18         .07 

1945 

Br  1077 

5-4 

21  48.257 

61.5 

+    3.5656—  .OO82 

—    .OIO 

-.0038-  I 

.09           .39        .21 

1946 

L  2802 

6-5 

21   52.647 

86.7 

+  2.3040+.  001  1 

.000 

+  .OOOI         0 

.15            .84        .25 

1947 

L3274 

6.7 

22      1.53- 

81.2 

—  19.815-—  2.648- 

+  .003-  +16 

.06           .50        .15 

1948 

Br  1073 

5-5 

22  20.505 

65-4 

+  4.5692-.  0279 

-  -034 

+  .OI22—     2 

.12            .54        .27 

1949 

L  2827 

6.9 

22  26.168 

85.8 

+  1.0347-  .0066 

-  .005 

—  .OI24+     2 

.18           .84        .27 

1950 

?7  Canis  Min 

5-4 

7   22  39402 

80.4 

+  3.2289—  .0040 

—  .004 

—  .0002         0 

.12           .34        .16 

1901  h  3948.     IOM  8"  90°;  Cluster  here. 


1902-3  S  1065.     15"  253°. 


CATALOGUE  OF  6188  STARS  FOR   1900 


79 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'  and  100  A  \i' 

Prob.  Errors. 
5Ep.   loop'  Sio 

^^^^ 

Remarks. 

1901 

o        /           // 

—  24  46  18.41 

78.6 

It                         // 

-6.401-    .341 

ft 

+    .04 

tt 
+  .006      o 

.09       .49     .18 

30  Canis  Maj  * 

1902 

+  50  20    7.68 

72.8 

-6.469-    .632 

+    .19 

-  .059      o 

.12         .60      .25 

2O1  Lyncis* 

IQ03 

+  50  20  12.38 

63.8 

-6.459-   -632 

+    .19 

-  .047       o 

.08         .28      .15 

2O2  Lyncis* 

1904 

+  73  16  30.10 

79.0 

-6.413-1.007 

+    -59 

+  .003-     2 

.11         .46      .l8 

£ee  Br  1035 

I9<>5 

+  55  28  22.03 

80.0 

-6.447-   -676 

+     .22 

—  .029      o 

.09         .49      .17 

S  1062.    14"  314° 

1906 

+  55  28  11.52 

72-5 

-6.458-   .676 

+     .22 

-  .038      o 

.06         .19      .09 

'  19  Lyncis 

1907 

-3633    6.12 

84.1 

-6.436-   .292 

+     -03 

-.013      o 

.11         .52      .17 

83  G  Puppis  vl 

1908 

—  26  24  10.67 

91.1 

-6.420-   .334 

+     .04 

+  .006      o 

.14      I.O5      .24 

154  G  Canis  Maj 

1909 

—  16  12  26.57 

94.2 

-6.543-   .374 

+     -04 

—  .IO4—     2 

•13    i-33    -25 

Cord  9325.    5*9  to  6™  7 

1910 

-3633  35-05 

82.2 

-6.463-    .292 

+     -03 

-.013       o 

•  13      -53    -20 

84  G  Puppis  w2 

1911 

-39    !  38-73 

79-i 

-6.457-   .280 

+     -03 

—  .OOI          0 

.12      .54    .21 

87  G  Puppis  F 

1912 

+  36  56  54.99 

63.2 

-6.515-   -551 

+     -13 

—  .041+  I 

.10         .38      .20 

65  Aurigae* 

191*3 

-33  32  33-32 

79-7 

-6.499-   -305 

+     .03 

-.013      o 

•IS         -85      -30 

86  G  Puppis 

1914 

+  2037  56.54 

66.5 

—  6.564—   .484 

+      .10 

-•033+  I 

.08         .27      .14 

56  Geminorum 

1915 

-14  10  23.23 

97-4 

-6-543-   -3?6 

+     .05 

+  .015      o 

.16      I.O5      .21 

156  G  Canis  Maj 

1916 

+  81    559-11 

73-2 

-6.567-1.532 

+  1.65 

-.003       o 

.07        .32      .14 

Groomb  1278 

1917 

—  67  46  26.97 

77-4 

—  6.605  +   .006 

+      .06 

—  .006       o 

.09        .49      .18 

1918 

-25  42  13.25 

76.2 

-6-575-   -336 

+     .04 

+  .031       o 

.12         .54      .22 

159  G  Canis  Maj 

1919 

+  4051  54.08 

56.6 

—  6.651—   .570 

+     -15 

—  .024      o 

.12        .43      .26 

66  Aurigae 

1920 

-   8  47  25.01 

83-7 

-6.631-   .394 

+     .06 

—  .002       o 

.08        .67      .19 

1921 

+  25  14  33.86 

65.1 

—  6.664—  -5°° 

+     -II 

-.023+  I 

.09        .37      .19 

57  Geminorum  A 

1922 

+  23    8  15.70 

66.0 

-6.693-   -493 

+     .11 

—  .046      o 

.12         .45      .23 

58  Geminorum 

1923 

-   5  47  32-34 

78.0 

—  6.672—    .402 

+      .06 

—  .020      o 

.10         .57      .21 

1924 

-  18  49  33.23 

94.6 

-6.681-   .360 

+     -04 

—  .004      o 

.14      I.OO      .21 

1  60  G  Canis  Maj 

1925 

-51  53  48.31 

87.1 

-6.713-   .198 

+     .02 

—  .004      o 

.l6      1.29      .34 

40  G  Carinae 

1926 

+  27  49  52.28 

65-1 

-6.705-   .511 

+     .12 

+  .015      o 

.11         .44      .23 

59  Geminorum 

1927 

-56    626.31 

81.1 

-6.681—   .160 

+      .02 

+  •043+  l 

.14         .63      .23 

41  G  Carinae 

1928 

+  49  24  36.18 

72.4 

—  6.837—   .620 

+     .20 

—  .049      o 

.07         .28      .13 

21  Lyncis 

1929 

-31  43  5I-65 

77.2 

-6.793-   -312 

+     -03 

-.003       o 

.11         .57      .22 

161  G  Canis  Maj 

1930 

+  11  51  55.27 

70.9 

-6.826-   .454 

+     .08 

—  .018      o 

.Og         .37      -I? 

i  Canis  Min 

1931 

+  27  5948-65 

72.9 

—  6.907—   .508 

+     .12 

-.090+  I 

.04         .l8      .08 

1932 

-32    028.94 

79-8 

-6.825-   .311 

+     -03 

+  .008      o 

.12         -54      .20 

163  G  Canis  Maj 

1933 

-29    54I-58 

82.7 

-6.843-   -321 

+     .03 

+  .007       o 

.12         .67      .22 

1934 

-29    628.75 

73-4 

—  6.864—   .322 

+     -03 

+  .004      o 

.06        .27      .12 

1935 

—  16    o  17.85 

77-6 

-6.879-   -368 

+     .05 

—  .010      o 

.13        .60     .23 

165  G  Canis  Maj 

1936 

+   9  28  24.06 

58.6 

—  6.890—   .446 

+     .08 

—  .019       o 

.13        .47      .28 

1937 

+  68  40  12.  20 

76.4 

-6.940-   .857 

+    -44 

—  .044      o 

.04        .24     .09 

1938 

-  13  33  18.01 

96.9 

-6.896-   .372 

+    .05 

+  .005+     2 

.15      I.IO     .21 

169  G  Canis  Maj 

1939 

-31  3644.42 

77-3 

-6.924-   .311 

+    -03 

+  .006      o 

.12         .55      .22 

171  G  Canis  Maj 

1940 

+  21  44    7.64 

71.8 

-6.975-   .480 

+     .10 

-.042+  3 

.16         .65      .30 

1941 

+  20  27  26.21 

68.9 

-6.966-   .481 

+     .10 

—  .024      o 

.12         .43      .21 

61  Geminorum 

1942 

-25    i  10.83 

88.2 

-6.951-   .337 

+    .04 

+  .OIO         O 

.13         .87      .23 

1  73  G  Canis  Maj 

1943 

+  48  23  14.03 

60.6 

—  7.030—   .610 

+    .19 

-  .058       o 

.14      .47    -27 

/3  758.     10*?  17"  91° 

1944 

+  8  29  27.19 

75-7 

-7.041-   .441 

+    .08 

-  .043       o 

.03         .18      .07 

1945 

+  21  3859.25 

58-2 

-7.127-   .484 

+     .10 

—  .122         0 

.O?         .29      .I? 

63  Geminorum 

1946 

-31  32  23.08 

76.1 

-7.005-   .312 

+  .03 

+  .005       o 

.12        .53      .22 

174  G  Canis  Maj 

1947 

-86  52  11.36 

82.4 

-7.015  +  2.709 

+  .007       o 

.05        .49     -U 

7  G  Octantis 

1948 

+  49  52  44.70 

54-3 

-7.134-   .622 

+    .20 

-.085-     2 

.IO         .31      .20 

22  Lyncis 

1949 

-58  17  52.09 

84.0 

—  6.921—   .136 

+     .02 

+.135+  2 

.15         .67      .23 

4-5  G  Carinae 

/•i'                            M        //        £.G 

1950 

+   78  44.72 

78.8 

-7.119-   .437 

+     .08 

-  -045      ° 

.10      .37    .15 

ft  21.      II™  4      26° 

1912  £901.    i2Mn"8°. 


8o 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

|i  and  100  A  n 

Prob.  Errors. 
aEp.      loop,     a  10 

M 

h    m          s 

s               s 

s 

s 

a           i,         a 

iQSi 

Paris  9166 

5-8 

7  22  40.596 

94-2 

+  2.6737  +  .0002 

.000 

—  .0005      o 

.11         .94      .19 

IQ52 

p  Geminorum 

4-3 

22  40.818 

81.0 

+  3.8649—  .0124 

-.015 

+  .0117+     I 

.05        .30      .10 

1953 

y  Canis  Min 

4-5 

22  43-IIO 

77-o 

+  3.2689—  .0044 

-.005 

-  .0043       o 

.10            .54         .21 

I9S4 

Paris  9170 

5-7 

22  45.068 

95-9 

+  2.  5448  +  .0007 

.000 

+  .OO02         O 

.12         I.O4         .19 

1955 

L  2810 

6.2 

22  59.370. 

84.2 

+  2.228O+.OOII 

.000 

-  -0033       o 

.15           .84        .26 

1956 

Br  1080 

5-2 

23      6.703 

63-7 

+  3-7434-  -oiio 

—  .012 

—  .0024       o 

.14           .52         .28 

1957 

Pi  116  m 

6.1 

23      9-S96 

79-8 

+  2.8210—  .0006 

—  .001 

—  .0005       o 

.08           .45         .16 

1958 

Lai  14578 

5-9 

23  27-853 

98.0 

+  2.5522  +  .0007 

.OOO 

+  .OOII         O 

.15         I.  II         .20 

1959 

Br  1082 

5-i 

23  35-600 

69.8 

+  3-7375-  -ono 

—  .OI2 

—  .0021       o 

.11             .42          .20 

1960 

L  2829 

5-2 

23  47-9M 

83-5 

+  1.5405—  .0018 

—  .OO2 

—  .0006      o 

.14            .60         .21 

1961 

Pi  122 

5-7 

24     0.955 

83.6 

+  2.3804+.  ooi  i 

.OOO 

—  .0017      o 

.14            .57          .20 

1962 

Br  1085 

4.9 

24  13.847 

71.2 

+3.3425-.  0054 

—  .OO6 

+  .0002       o 

.09            .27         .14 

1963 

BD-i°  1738 

6.0 

24  I5-34I 

96.7 

+  3.0360—  .0022 

-.003 

+  .0007       o 

.12          1.  12          .19 

1964 

Pi  120 

6.2 

24  34-153 

77-8 

+  2.9158—  .OOIO 

—  .OOI 

+  .0042+   I 

.l8            .72         .29 

1965 

Dpt  887 

6.2 

24  48.810 

89-9 

+  2.7306-  .0005 

—  .OOI 

—  .0129—     2 

.12            .62          .17 

1966 

L  2821 

7.0 

25     0.701 

82.3 

+  2.  3046+.  OOI  I 

.000 

—  .0002       o 

.13            .78         .25 

1967 

L  2823 

6.1 

25   13.269 

81.8 

+  2.3i46+.oon 

.000 

—  .0022       o 

•13        -75      -25 

1968 

SD-220  1897 

4-9 

25  36-542 

96-3 

+  2.  5497  +  .0007 

.000 

+  .0008       o 

.13          1.23          .21 

1969 

L  2832 

5-7 

25  38.003 

85-9 

+  2.  0783  +  .O009 

.000 

—  .0006       o 

.14            .72          .22 

1970 

U  Monocerotis 

Var. 

26      I.27O 

95-7 

+  2.8603—  .0009 

—  .001 

-  .0025       o 

.13          I.O2          .19 

1971 

PulkM  1217 

5-7 

26      2.483 

92-5 

+  3.4622—  .0071 

-.008 

+  .0026       o 

.11        .68      .16 

1972 

o-  Puppis 

2-9 

26     3.528 

76-3 

+  1.903  1  +  .0008 

.000 

—  .0058+     2 

.10        .48      .19 

1973 

L2834 

4.8 

26  49-301 

80.9 

+  2.  3309  +.001  1 

.000 

—  .0027       o 

.12            .70         .24 

1974 

Br  1088 

5-3 

26  54-316 

68.0 

+  3.1182—  .0031 

-.003 

—  .0002      o 

.14            .56         .27 

1975 

Br  1089 

7.0 

27  42.650 

68.2 

+  3-  4242  -.0067 

—  .006 

—  .0002      o 

.14        .66      .31 

1976 

L  2850 

6.9 

27  s^a 

83-4 

+  I.5747-.  00l6 

—  .002 

+  .0006      o 

.15        .94      .29 

1977 

Br  1091 

5-3 

27  54.099 

71.1 

+  3.4277—  .0068 

—  .006 

—  .OOIO          0 

.07        .38      .16 

1978 

Br  1092 

5-8 

27  57-145 

85.8 

+  3-I477--oo34 

-.003 

—  .0005      o 

.13        .42      .16 

1979 

a  Geminorum  m 

28  13.079 

71.1 

+  3.8361—  .0137 

—  .014 

-•0135-  I 

1980 

Groomb  1330 

6.2 

28  38.718 

90.9 

+  4.  9047  -.0402 

—  .046 

—  .0009—    I 

.14        .56      .17 

1981 

Br  1090  m 

S.6 

28  47.547 

79-6 

+  3.8186-  .0131 

-.013 

—  .0025      o 

.11        .40      .17 

1982 

SD—  19°  1944 

6.0 

28  55.222 

98.9 

+  2.  6438  +.0002 

.000 

+  .0022          0 

.l6         1.24         .22 

1983 

L  2844 

6.0 

28  58.918 

86.1 

+  2.  5078+.  0008 

.000 

—  .0009      o 

.15       i.oo      .28 

1984 

Br  1095 

6.0 

29    i.ioo 

81.0 

+  3-I493-.  0035 

-.003 

—  .0006      o 

.13            .38         .17 

1985 

PulkM  1226 

5-2 

29  12.348 

90.9 

+  2.  7563-.  0003 

—  .OOI 

—  .0007       o 

.13            .69         .18 

1986 

Radcl  1986 

5-9 

29  16.193 

86.7 

+  4.3698-  .0254 

—  .027 

—  .OOOg—     I 

.12            .56         .18 

1987 

v  Geminorum 

4-2 

29  45-691 

66.0 

+  3.  7029-  .0114 

—  .on 

—  .OO2O—     I 

.O?            .33          .16 

1988 

Lai  14810 

4.6 

29  46.320 

92.1 

+  2.  5665  +  .OOO6 

.000 

—  .0048      o 

.09            .98         .20 

1989 

Pi  147 

5-8 

30    5-050 

78.7 

+  2.5349+.  0007 

.000 

—  .0069       o 

.IO            .56         .20 

1990 

Pi  149 

6.2 

30    5.672 

83-3 

+  2.5327  +  .0007 

.000 

—  .0091      o 

.11             .62         .20 

1991 

L  2860 

5-7 

30  13-9*5 

85-5 

+  2.  1694+.  OOIO 

.000 

—  .0022      o 

.12            .68         .20 

1992 

Pi  i54 

6.9 

30  21.651 

82.0 

+  2.4725  +  .0009 

+  .OOI 

—  .0007      o 

.13            .69         .23 

1993 

e  Mensae 

5-5 

31    8.213 

86.3 

-3-2i35--l8i6 

-.003 

-  -0143      ° 

.14            .72         .22 

1994 

Pi  163 

4.6 

31  22.025 

84.2 

+  2.4082  +  .  ooio 

+  .OOI 

-.0052      o 

.14        .68      .22 

1995 

Br  1086 

7-5 

31  22.460 

70-7 

+5.  1874-  .0510 

-•057 

—  .0002      o 

.15            .44         .23 

1996 

Cape.w  1263 

5-7 

3*  28.055 

90.0 

+  2.  7583-.  0003 

.000 

—  .0008      o 

.12            .68         .18 

1997 

Br  1097 

5-9 

31  59.116 

7i-3 

+  3-9457-  -016i 

-.015 

+  .0032       o 

.09            .28         .15 

1998 

Paris  9396 

5-8 

32  I7-34I 

97-9 

+  2.  6365  +  .OOO4 

.000 

—  .0009       o 

.l6         1.  12         .21 

1999 

Br  1102 

5-2 

32  18.380 

87.8 

+  2.9841—  .OO20 

—  .002 

—  .0047       o 

.05            .51          .12 

2000 

Br  1093 

6.4 

7  32  33-331 

76.4 

+  4.9866—  .0448 

—  .048 

—  .0008      o 

.09            .40         .17 

S78.       IOM  2'.'3  46°. 


1957  S  1097. 


20"  313°;  IIM  23"  157°;  I2M  32"  43°. 


CATALOGUE  OF   6 1 88   STARS   FOR    1 900 


8l 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

HI'  and  ioo  A  p.' 

Prob.  Errors. 
SEp.  ioo(i'  810 

Remarks. 

1951 

0             t                 II 

-17  3948.15 

92.0 

//           // 
—    7.080—  .362 

+  .05 

a 
—  .004      o 

n          it       n 
.12    1.08    .23 

i76GCanisMaj* 

1952 

-f  31  59    o-42 

72.5 

-    6.893-.  526 

+  .12 

+  .l83-     2 

.06      .25    .11 

1953 

+   97  40.74 

73-9 

-    7.  07  1  -.442 

+  .08 

+  .008+     I 

.09    .40  .17 

1954 

-2253    4.38 

94.8 

-   7-075-  -344 

+  .04 

+  .007      o 

.12        .94     .19 

177  G  Canis  Maj 

1955 

-33  5622-46 

73-o 

-   7.  no-.  300 

+  .03 

—  .008       o 

.14        .67      .28 

91  G  Puppis 

1956 

+  28  19  27.46 

62.5 

-   7-I7I--5Q7 

+  .12 

-  .059      o 

.11         .47      .25 

64  Geminorum  b  * 

1957 

—  II   21    14.18 

74.8 

-   7-ii6-.38i 

+  .06 

—  .001      o 

.08        .37      .15 

f  33».    6*f3-8^2  o'.'g  169°  * 

1958 

-22  39  21.57 

97-9 

-    7.  132-.  345 

+  .04 

+  .008       o 

.15    1.16    .21 

92  G  Puppis 

1959 

+  28    7  20.29 

66.0 

—    7.191—  .506 

+  .12 

—  .040      o 

.09    .39  .19 

65  Geminorum  b  2  * 

1960 

-5049    0.15 

82.0 

—   7.171—  .207 

+  .O2 

-  .003      o 

.11      .50    .18 

44  G  Cannae 

1961 

-2857    7.03 

79.0 

-   7.178-  .321 

+  .03 

+  .007       o 

.13         .51      .20 

93  G  Puppis 

1962 

+  12   12  48.34 

71.1 

—   7.222—  .452 

+  .09 

—  .019       o 

.09         .30      .15 

6  Canis  Min 

1963 

-   i  4i  S7-38 

97.6 

—    7.200—  .410 

+  .07 

+  .005       o 

.11      I.I3      .l8 

1964 

-   7  20  54.55 

78.2 

-   7-!oi--394 

+  .06 

+  .130-  I 

.14         .63      .24 

1965 

—  1447    8.28 

79-4 

-   7.  514-.  366 

+  .0S 

—  .263+     2 

.11         .42      .I? 

Si  104.  8M3  2'.'3  332° 

1966 

-313832.88 

76.0 

-   7.  276-  .310 

+  .03 

—  .009      o 

•13         -63      -25 

7*2  fols.o86o,N6'.'s 

1967 

-31  1459-09 

75-Q 

-   7.288-  .311 

+  .03 

—  .004      o 

.12        .6l      .24 

96  G  Puppis 

1968 

-  22  48  58.83 

95-o 

-    7-3I3-  -343 

+  .04 

+  .OO2          0 

.14      I.I4      .22 

97  G  Puppis 

1969 

-38  36   19.62 

83.1 

-   7-309-  -279 

+  .03 

+  .008      o 

.13         .60      .21 

98  G  Puppis  y 

1970 

-   934    3-lS 

94.8 

-   7-3S2--  385 

+  .06 

—  .002      o 

.12         .99      .19 

Lai  14658  5?9  to  8l"o 

1971 

+  17  17  55.69 

89.6 

-   7.  43  1  -.467 

+  .10 

-  .081      o 

.11         .55      .16 

1972 

-43    556.18 

73-5 

-   7.I72-.254 

4.03 

+  .180+  I 

.09         .39      .17 

Dunlop.  8M  22"  73° 

1973 

-3045    7.14 

74-4 

-    7.410-.  312 

+  -03 

+  .004      o 

.11         .58      .23 

100  G  Puppis 

1974 

+  2    7  35.04 

68.4 

-    7.434-  .419 

+  .07 

-.013      o 

.11         .44     .21 

7  Canis  Min  81 

1975 

+  15  51  13.20 

63-4 

-   7  -493  --460 

+  .10 

—  .007       o 

.12        .49     .26 

67  Geminorum 

1976 

-502353.64 

81.6 

—    7.486—  .210 

+  .02 

+  .OI2          O 

.13        .69     .24 

102  G  Puppis 

1977 

+  16    2  29.85 

68.2 

—    7.528—  .460 

+  .10 

—  -025      o 

.06        .30     .14 

68  Geminorum 

1978 

+  3  30  12.42 

77-2 

-   7.472-.  422 

+  .08 

+  .034      o 

•12        -35      -I? 

8  Canis  Min  S2 

1979 

+  32    6  26.78 

69.9 

-   7-637-  -513 

+  •13 

—  .IIO+     2 

Castor.     See  Appendix. 

1980 

+  55  58  30.60 

88.8 

-    7.606-  .659 

+  .26 

—  .044      o 

.13        .45      .16 

1981 

+  31  10  41.08 

76.4 

-   7-575-  -5" 

+  •13 

—  .OOI         O 

.10      .37    .16 

02  175.  e^i-a1*?  o'.';  330° 

1982 

—  19  ii  42.17 

98.4 

-  7-653-  -354 

+  .0S 

—  .069      o 

.18      1.47      .25 

105  G  Puppis 

1983 

-  24  29  44.83 

78-5 

-   7-583-  -335 

+  .04 

+  .006      o 

.14        .91      .32 

106  G  Puppis 

1984 

+  3  35  19.01 

76.1 

—  7.605—  .422 

+  .08 

-.013       o 

.12         .34      .I? 

9  Canis  Min  (83) 

1985 

-14  1827.59 

87-3 

—  7.620—  .368 

+  .06 

-.013       o 

.12         .67      .19 

1986 

+46  24    2.42 

84.0 

-  7-659-  -586 

+  .19 

—  .046      o 

.12         .52      .l8 

1987 

+  27    7    4.81 

61.0 

-   7.7687.495 

+  .12 

—  .116      o 

.06         .26      .14 

1988 

—  22      4  48.14 

89.2 

-   7.608-.  342 

+  •05 

+.045+  I 

.10    i.oo    .23 

108  G  Puppis 

1989 

-23   15   20-35 

78.2 

-   7.680-  .337 

+  .0S 

—  .002  +    I 

.09        .50     .18 

1  in  G  Puppis  w1* 

1990 

-23   IS   23.74 

80.0 

-   7.699-.  337 

+  -°5 

—  .020+   I 

.IO        .51      .18 

J  112  G  Puppis  w2* 

1991 

-36   7  15.30 

74-8 

—   7.700—  .289 

+  -°3 

—  .010      o 

.13        -60     .25 

115  G  Puppis  z,  Z 

1992 

-  25  53  50-98 

76.3 

-   7.724-  -330 

+  .05 

-  .023       o 

.12         -55      .22 

114  G  Puppis 

1993 

-7853    4-98 

87.9 

-   7-747  +  .437 

+  -47 

+  .OI6+     2 

.11         .71      .19 

1994 

-28    853.96 

76.7 

-     7.  808  -.3  20 

+  .04 

—  .026+     I 

.12         .51      .21 

119  G  Puppis  p 

1995 

+  5947  21.07 

61.1 

-   7-773-  -694 

+  •31 

+  .009      o 

.12        .30     .19 

48  Camelopardi 

1996 

—  14  16  16.49 

87.8 

-   7.780-  .367 

+  .06 

+  .OIO         0 

.12        .71      .20 

122  G  Puppis* 

1997 

+  35  16  21.05 

72.8 

—   7.814—  .526 

+  •15 

+  .018       o 

•09      -33    -IS 

70  Geminorum 

1998 

-192845.77 

94-2 

-   7-847-  -350 

+  .05 

+  .009      o 

.16    i.oi    .23 

1999 

-   3  53  iS-6i 

83.0 

-   7.  840-.  396 

+  .07 

+  .018+  I 

.06        .36     .12 

25  Monocerotis 

2OOO 

+  57  18  39.62 

69.9 

-   7.  895  -.665 

+  .27 

—  .017      o 

.08        .29     .14 

23  Lyncis 

19590  "94-     i2Mi3"289°. 


1989-00  South.    9"  109° 


199621120.    9^520"  36° 


82 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    1900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

p.  and  100  A  p 

Prob.  Errors. 
aEp.     loop     aio 

M 

h    m          s 

s               s 

s 

s 

n                 n             it 

2OOI 

o  Geminorum 

5-i 

7  32  38-375 

66.1 

+  3.9246—  .0161 

-.015 

—  .0022—    I 

.10            .38         .20 

2O02 

Abo  157 

8.7 

33    9-468 

73-o 

+  3.1874—  .0042 

-.003 

+  .OOI2          O 

.IO            .50         .21 

2003 

L  2902 

4.9 

33  "-292 

86.7 

+  1.4850—  .0028 

—  .002 

+  .0014       o 

.14       .80     .23 

2004 

L  2890 

4-7 

33  40.084 

89.6 

+    2.2I89+.OOI2 

+  .OOI 

—  .0029      o 

.10        .81      .20 

2005 

Br  1103 

5-4 

33  42.123 

69.9 

+    3.4688-  .0079 

-.007 

+  .0003       o 

.08      .36     .16 

2OO6 

Pi  156 

5-8 

33  49-205 

72.0 

+    4.4463  -.0292 

—  .028 

-.0053-     2 

.15      .57     .26 

2007 

L  2904 

6.0 

33  55-9J3 

86.3 

+    1.6807—  .OOIO 

—  .001 

—  .OOIO         O 

.20      1.28      .36 

2008 

aCanisMinc.g. 

0.2 

34    4-io8 

70.6 

+  3-1433--oo5S 

—  .004 

—  .0466—   6 

2OO9 

Pi  173 

4-7 

34    8.282 

82.8 

+  2.4964+.  0008 

+  .OOI 

—  .OOIO         O 

.14           .64        .22 

2OIO 

Br  1096 

5-o 

34  32-907 

85-7 

+  5.1016—  .0502 

-.052 

-.0039-  I 

.05       .32     .09 

2OII 

Pi  175 

4-5 

34  43-454 

81.9 

+  2.4593  +  .0010 

+  .OOI 

—  .0008      o 

.12            .68         .22 

2OI2 

Pi  177 

4.6 

34  43-974 

82.2 

+  2.4579+.OOIO 

+  .001 

—  .0022       o 

.12             .68         .22 

2013 

Br  1107  m 

6.2 

34  48.323 

72.2 

+  3.1886—  .0042 

-.003 

—  .0007       o 

.10        .32      .15 

2OI4 

L  2903 

6.0 

35    6.459 

88.4 

+  2.I74I  +  .OOH 

+  .OOI 

—  .0009      o 

.12            .78         .21 

2015 

L  2918 

5-8 

35  28.601 

81.9 

+  1.6956—  .0009 

—  .001 

—  .0015      o 

.18     .98    .33 

2Ol6 

Capeso  1281 

5-3 

35  48.8o6 

93-o 

+  2.  7429-  .0003 

.000 

—  .0014      o 

.13     .78    .18 

2017 

L  2909 

S-o 

35  55-931 

85.0 

+  2.H37  +  .OOIO 

.000 

—  .0019      o 

.13             .72          .22 

2018 

L  2912 

6.0 

36  11-776 

80.7 

+  2.II98+.OOIO 

.000 

—  .0021       o 

.l8         1.02          .35 

2019 

L  2913 

6.0 

36  16.150 

86.0 

+    2.  1159+.  OOIO 

.000 

—  .0020      o 

.13            .72          .22 

2O2O 

Lai  14961 

6.0 

36  24.949 

97-3 

+  3-3855-  -0069 

-.005 

—  .0010          0 

.10        .81      .14 

2O2I 

y  Monocerotis 

4.1 

36  28.181 

82.7 

+  2.8671  —  .0013 

—  .001 

—  .0051       o 

.06       .42     .13 

2O22 

Br  1104 

5-5 

36  29.796 

7i-3 

+  4.5596-  -0330 

-.031 

—  .0014      o 

.11             .44         .20 

2023 

a-  Geminorum 

4-3 

37    3-798 

69-3 

+  3.7565-  -0135 

—  .on 

+  .0053-     2 

.09      .32    .15 

2O24 

Br  1098 

6.2 

37    6.727 

73-4 

+  5.7769-  .0791 

-.084 

+  .007  1       o 

.10        .'38      .17 

2025 

Br  noo 

6.8 

37  24.382 

66.9 

+  5.4646—  .0664 

—  .067 

—  .0047—    I 

.10        .32       .17 

2O26 

L  2924 

5-7 

37  44.819 

86.4 

+    2.  IO94+.  OOIO 

.000 

—  .0020      o 

.14           .70         .22 

2O27 

Pi  182 

7-3 

37  56-102 

90-7 

+  3.6238—  .0110 

—  .009 

—  .0024      o 

.13      .52     .17 

2028 

Br  1109 

5-6 

38    0.977 

69-3 

+  3.6645-.  0117 

—  .009 

—  .0015       o 

.10        .39      .19 

2O2Q 

K  Geminorum 

3-5 

38  24.701 

76.6 

+  3.6280—  .0111 

—  .009 

—  .0016      o 

.04            .21          .08 

2030 

Br  1116 

6.0 

38  40.424 

84.1 

+  2.4763  +  .0009 

+  .00  1 

—  .0007      o 

.11        .68      .21 

2031 

j8  Geminorum 

i.i 

39  11.882 

65-9 

+  3.6776—  .0128 

—  .010 

—  .0471+  I 

.02        .11      .05 

2032 

Br  1118 

4-9 

39  30-185 

82.8 

+    2.4225+.OOII 

+  .00  1 

—  .0005      o 

.14            .64         .22 

2033 

L  2939 

5-8 

39  32-370 

80.0 

+  2.I946+.OOII 

+  .OOI 

—  .0030       o 

.14      .78    .27 

2034 

Pi  132 

6.8 

39  45-838 

75-5 

+  10.1346-.  4255 

-.625 

—  .1920+60 

.06      .33     .13 

2035 

Br  i  i  20 

4.1 

39  47-63I 

82.6 

+  2.4o83  +  .oon 

+  .OOI 

—  .0002       o 

.08        .40      .14 

2036 

L  2950 

5-i 

39  5^466 

86.0 

+  1.8574-  .0013 

.000 

—  .0068—   7 

.16       .92      .27 

2037 

PulkM  1248 

5-5 

39  58.973 

90.6 

+  4.0126—  .0192 

—  .016 

+  .OO2I         O 

.12             .70         .18 

2038 

L  2943 

6.7 

40  10.315 

87-3 

+    2.I253  +  .OOIO 

.000 

—  .0023       o 

.14            .69         .21 

2039 

L  2945 

5-i 

40  17.620 

82.5 

+  2.  042  7  +  .0005 

.000 

+  .OII2—     2 

.11        .56      .19 

2O4O 

Br  1115 

5-2 

40  20.  1  2O 

69.2 

+  3.4785-.  0088 

—  .006 

—  .0048      o 

.07      .32     .15 

2O4I 

L  2979 

6.7 

40  20.192 

84.4 

+    I.IO22—  .Oo8l 

-.005 

—  .0032      o 

.18      .78     .27 

2O42 

L  2940 

5-7 

40  21.944 

90-9 

+    2.  52OI  +  .OOO8 

+  .OOI 

—  .0024      o 

.13      .72     .19 

2043 

L  2944 

6.0 

40  30.423 

80.2 

+    2.I9I6+.OOI2 

+  .00  1 

-  .0073       o 

•15        -75      -27 

2044 

L  2982 

7-5 

40  3I-l64 

84-5 

+  1.1035—  .0081 

-.005 

+  .0004      o 

.18       .80     .27 

2045 

Br  1117 

5-4 

40  45.982 

64-3 

+  3.3063—  .0061 

—  .004 

—  .0014       o 

.13      .48     .26 

2046 

Pi  204 

7.0 

4052.724 

82.4 

+  2.7603—  .0004 

.000 

—  .0006       o 

.13      .81     .26 

2047 

Br  ii2i 

6-3 

40  SS^S8 

73-° 

+  2.7598—  .0004 

.000 

—  .OOIO          O 

.11             .50         .22 

2048 

L  2954 

6.1 

4i    0.530 

81.9 

+  2.I358  +  .OOH 

.000 

—  .0022      o 

•13        -75      -25 

2049 

TT  Geminorum 

5-4 

41    3.610 

85-1 

+  3.8775-  .0165 

-.013 

+  .0003      o 

.05      .38     .11 

2050 

Pulks,  1253 

6.0 

7  4i    8.559 

93-o 

+  2.9379-  .0019 

—  .001 

+  .0038-  I 

.12        .66      .17 

'  318°. 


2018  limes.     9M  i'.'s  152  '. 


CATALOGUE  OF  6 1 88  STARS  FOR  1900 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

* 

|i'  and  too  A|i' 

Prob.  Errors. 
SEp.  i  oo  (i'  Sio 

Remarks. 

2001 

0             /                 // 

^+34  48  49.22 

68.0 

//           if 

—  8.006—    .522 

+   -i5 

—    .122          O 

//         a       n 
.10      .59    .27 

2002 

+  5  18    0.85 

75-o 

-7.997-    .424 

+   .08 

—  .071      o 

.09         .57      .22 

2003 

-52  1837.90 

83.2 

-7.949-    .196 

+   -03 

—  .021      o 

.11         .56      .19 

50  G  Carinae  Q 

20O4 

-34  44  36.82 

83.6 

-7-953-   -293 

+   -04 

+  .014      o 

.11         .6l      .20 

127  G  Puppis/ 

2005 

+  17  54    8.32- 

61.1 

—  7.968—   .460 

+   .11 

+  .002      o 

.07         .27      .15 

74  Geminorum  / 

2OO6 

+  48  21  54.04 

66.1 

-8.113-   -591 

+     .21 

-  -134+  I 

.13         .45      .24 

2007 

-48  36  18.85 

78.1 

—  7.982—     .221 

+     -03 

+  .006      o 

.14         .69      .26 

1306  Puppis  (F1) 

2008 

+  5  28  53.38 

67.7 

—  9.029—     .409 

+     .08 

—  1.030+  6 

Procyon.   See  Appendix 

2009 

-25    8  15.69 

80.3 

-8.013-   -33° 

+     .05 

—  .008      o 

.13        .60     .22 

128  G  Puppis  m 

2OIO 

+  58  56  39-72 

75-8 

—  8.099—   -678 

+     -31 

—  .061      o 

.06        .22      .09 

24  Lyncis 

201  1 

—  26  34  26.62 

75-8 

-8.028-   .325 

+     .04 

+  .024      o 

.11         .54      .22 

133  G  Puppis*1! 

2OI2 

-263434-88 

75-2 

-8.038-   .324 

+     .04 

+  .014      o 

.11         .51      .21 

133  G  Puppis  k*\ 

2013 

+  5  27  40.45 

68.4 

—  8.087—   -422 

+     .08 

—  .029      o 

.09         .29      .15 

Siu6.    jfo-jfi  i"  144°  slow 

2014 

—  36  16    6.62 

82.6 

-8.091-   .286 

+     .04 

—  .009      o 

.12         .56      .19 

138  G  Puppis 

2015 

-48  22   23.38 

79.1 

—  8.113—    -222 

+     .03 

—  .001      o 

.14         .73      .27 

142  G  Puppis  (  F3) 

20l6 

"IS      I    55-30 

86.8 

-8.159-   -362 

+     .06 

—  .020      o 

.12         .65      .19 

140  G  Puppis 

2017 

-38      441.64 

79-8 

—  8.154—     .278 

+     -03 

—  .006      o 

.11         -51      .19 

143  G  Puppis  dl 

20l8 

-37  5432-54 

82.1 

-8.172—     .278 

+     .03 

—  .002       o 

.13         .63      .22 

144  G  Puppis  d2  * 

2019 

-38    i  47.82 

80.7 

-8.178-     .278 

+     .03 

-  .003      o 

.11         .54      .19 

145  G  Puppis  d* 

2O2O 

+  14  26  32.50 

96.0 

—  8.181—   .447 

+     -II 

+  .006      o 

.11         .80      .16 

2021 

-   9  19    4.19 

77.6 

-8.215-   -377 

+     .O? 

—  .024+  I 

.06         .32      .12 

Br  mo  26  F  and  o  Mon. 

2022 

+  50  40  13.21 

65.8 

-8.236-    .603 

+     .23 

—  .042       o 

.09         .34      .18 

2023 

+  29    732.22. 

65.6 

—  8.476—   .496 

+     .14 

-    -237-     1 

.08         .32      .l6 

2024 

+  65  41  40.31 

67.2 

-8.231-   .765 

+     -42 

+  .012—    I 

.09         .27      .14 

51  Camelopardi 

2025 

+  63    4  i8.ii 

63.6 

-8.328-   .722 

+   -37 

—  .062+   I 

.09         .33      .18 

49  Camelopardi 

2O26 

-38  17  59.24 

81.3 

—  8.289-  -276 

+   -03 

+  .004      o 

•  13      -55    -20 

150  G  Puppis 

2027 

+  24  28  53.89 

83-5 

-8.334-   .477 

+    -X3 

—  .026      o 

.12         .42      .l6 

2028 

+  26    i  19.99 

63.0 

-8.342-  .482 

+    •I3 

—  .027       o 

.10        .40     .21 

76  Geminorum  c 

2029 

+  24  38  16.07 

69.8 

-8.408-  .477 

+    •I3 

—  .062       o 

.04        .18      .08 

02  179.    9M  7"  236° 

2030 

-26    648.87 

82.6 

-8.394-  .324 

+    -05 

—  .027       o 

.11         .57      .19 

154  G  Puppis 

2031 

+  28  16    4.01 

63.9 

-8.466-  .477 

+    .14 

-  .058  +6 

.02         .11      .06 

Pollux 

2032 

—  28  10  23.27 

78.8 

-8.421-   .317 

+    .04 

+  .012       o 

•13         -57      -22 

155  G  Puppis 

2033 

-35  4844-19 

72.6 

—  8.444—   .286 

+    .04 

•—  .008      o 

•H     -75    -3i 

156  G  Puppis 

2034 

+  80  30  58.59 

74.2 

-8.392-1.312 

+  1.78 

+  .062  +  25 

•07      -35    -J4 

Groomb  1339 

2035 

-28  42  56.63 

81.6 

—  8.466-  .314 

+    .04 

—  .010      o 

.08      .44    .15 

157  G  Puppis  /  (T) 

2036 

-4455    9.87 

78.8 

—  9.029—  .241 

+    -°3 

-  .568+  I 

.12         .59      .22 

159  G  Puppis 

2037 

+  37  45  34-45 

88.6 

-8.454-  .527 

+    -J7 

+  .017       o 

.12         .60      .l8 

2038 

-37  57  45-94 

81.7 

-8.493-   -277 

+    -03 

—  .007      o 

.12         .56      .20 

1  60  G  Puppis 

2039 

—  40  41  21.61 

82.8 

-8.685-   .268 

+    -03 

-    .189-     2 

.10      .51    .17 

162  G  Puppis  (W) 

2040 

+  1845  14.27 

65.0 

-8.568-  .455 

+     -12 

—  .069+  I 

.06         .26      .13 

8  1  Geminorum  g 

2041 

-58  23  35.15 

84-4 

—  8.504—  .142 

+     -03 

—  .005       o 

.15         .69      .23 

55  G  Carinae 

2O42 

-  24  26    0.73 

85.0 

-8.489-  .329 

+     .05 

+  .012       o 

.12         .69      .21 

161  G  Puppis 

2043 

-35  49  28.12 

73-6 

-8.450-  .285 

+     .04 

+  .062+  I 

•IS      -75    -31 

164  G  Puppis 

2044 

-5825  53.80 

79-8 

—  8.524—  .142 

+     -03 

—    .Oil          O 

.13         .6l      .22 

h  4000.  ii    i'/s  236° 

2045 

+  11    043.40 

64.9 

-8.550-  .432 

+     .10 

—  .017      o 

.12         .45      .24 

1  1  Canis  Min 

2046 

—  14  26  36.29 

79-7 

-8.576-  .360 

+     .06 

-  -034      o 

.11         .6l      .22 

1*1138.   17"  339° 

2047 

-14  26  51.92 

68.3 

-8.576-  .360 

+     .06 

-  -034      o 

.10      .36    .18 

J2  Puppis 

2048 

-3742    6.78 

81.2 

-8.552-   .278 

+     -03 

.000      o 

.12         .59      .21 

174  G  Puppis 

2049 

+  33  39  40.03 

78-4 

-8.596-   .507 

+     -IS 

—  .040      o 

.06         .28      ,IO 

21135.  ii    22"  212° 

2050 

-   6  31  36.29 

91.8 

-8.657-  -384 

+     .08 

-  .094      o 

.11         .73      .I? 

PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    1900 


No. 

Designation. 

Mag. 

R,  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3*1 

H  and  100  A  |i 

Prob.  Errors. 

aEp.   ioo(i  aio 

M 

h  m    8 

s      s 

s 

s 

n       /f      it 

2051 

Br  1122 

5-2 

7  41  20.581 

75-1 

+  2.7628—  .0004 

.000 

—  .0012   o 

.08   .39  .16 

2052 

L  2958 

3-2 

4i  4I-503 

80.9 

+  2.I365  +  .OOH 

+  .00  1 

—  .0021   o 

.10   .45   .16 

2053 

L  2957 

5-5 

41  S1^2! 

91.2 

+  2.  2387  +  .0040 

+  .OOI 

—  .0205+14 

.12   .86   .20 

2054 

Br  1119 

6-5 

42  34.926 

60.4 

+  3-5925-  -0109 

—  .008 

—  .0009   o 

.13   .46  .27 

2055 

Abo  161 

6.1 

42  54.682 

85-4 

+  2.5785  +  .0006 

+  .OOI 

—  .0007   o 

.12     .75    .22 

2056 

£  Volantis 

3-8 

43  3-078 

79-o 

—  0.7121—  .0614 

—  .029 

+  .O02O    O 

.10     .64    .22 

2057 

Pi  199 

6-3 

43  13.211 

69-3 

+  4-7493-  -0418 

-.036 

-.0023+  I 

•13   -52  -25 

2058 

Br  1124  S* 

6.0 

43  iS-733 

7°-5 

+  2.8104—  .0008 

.000 

—  .0074   o 

.12     .48    .22 

2059 

5  Puppis 

Var. 

43  49.760 

81.2 

+  1.7416—  .0007 

—  .001 

—  .0025   o 

.16   i.oo   .33 

2060 

L  2991 

5-3 

43  52-670 

88.3 

+  2.I258+.OOII 

+  .OOI 

+  .OOII    O 

.15     .75    .22 

2061 

o  Puppis 

4-7 

43  55-765 

81.4 

+  2.4935  +  .0009 

+  .OOI 

—  .0009   o 

.09    .62   .20 

2062 

L3oo3 

5-4 

44  30.208 

84.4 

+  1.8118—  .0003 

.000 

—  .0023   o 

.18   1.04   .32 

2063 

L  2995 

7-i 

44  47-693 

88.5 

+  2-3397  +  -ooi2 

+  .OOI 

—  .0016   o 

.14   .84  .23 

2064 

Br  1130 

5-5 

44  49-674 

75-o 

+  2.  5190+.  OOO8 

+  .OOI 

—  .0028   o 

.11   .57  .23 

2065 

£  Puppis 

3-4 

45  5-31? 

78.3 

+  2.  5229+.  OOO8 

+  .OOI 

-  .0005   o 

.04     .22    .09 

2066 

Br  1129 

5-7 

45  10.176 

64-7 

+  2.7104—  .OOO2 

.000 

+  .0038-  I 

.12     .44    .23 

2067 

1.3017 

4-7 

45  21.617 

89-7 

+  1.7866—  .OOO7 

.000 

—  .0092—  2 

.l8    I.O2    .27 

2068 

Pi  228 

6.0 

45  22.294 

82.6 

+  2.8849—  .OOI4 

—  .001 

+  .0008   o 

.15  .75  .26 

2069 

L  3006 

5-9 

45  46.259 

94-2 

+  2.2899  +  .ooi3 

+  .OOI 

—  .0042   o 

.16   1.18   .25 

2070 

L  3022 

4-2 

46  11.492 

77-4 

+  1.8280—  .0001 

.000 

—  .OOI  I    O 

.12     .62    .23 

2071 

£  Canis  Min 

5-2 

46  30.814 

87.0 

+  3.  1129-  .0038 

—  .002 

—  .0016   o 

.12     .39    .15 

2072 

L  3046 

5-6 

46  57-8i5 

86.2 

+  1.2898-.  0058 

—  .004 

—  .0025   o 

.18   .86   .27 

2073 

Br  1133 

6.8 

47  °-3I3 

73-i 

+  2.8070—  .0008 

.000 

+  .0006   o 

.16   .52  .25 

2074 

Br  1127 

7-4 

47  4-7l8 

73-8 

+  3.5689—  .0110 

—  .007 

+  .OOOI    O 

.12     .54    .23 

2075 

Br  1134  m 

5-5 

47  8.465 

77-5 

+  2.7789—  .0010 

.000 

—  .OO4I—  2 

.06   .27   .10 

2076 

Br  1125 

6-5 

47  12.930 

72.0 

+4-3790-  .0313 

-.023 

—  .0017   o 

.10   .33   .16 

2077 

Paris  9649 

6.0 

47  21.714 

94-3 

+  2.  6l22  +  .OOO4 

.000 

-  .0043   o 

.13   .75  .18 

2078 

<f>  Geminorum 

5-i 

47  22.692 

73-o 

+  3.6784-  .0133 

—  .009 

—  .0022   o 

.05     .21    .09 

2079 

Br  1126 

5-8 

47  25.928 

83.1 

+  4.3842  -.03  1  6 

-.023 

—  .0042   o 

.06   .24   .09 

2080 

L  3060 

6.0 

47  33-732 

90.4 

+0.9946—  .0100 

—  .007 

—  .0104+  3 

.18   .92   .26 

2081 

L  3043 

6.0 

47  40.720 

93-7 

+  1.6327—  .0019 

—  .001 

—  .0067—  I 

.16   .99  .23 

2082 

Br  1136 

5-9 

47  42-761 

67.8 

+  2.7617—  .0005 

.000 

—  .0005   o 

•13   -57   -27 

2083 

Pi  242 

5-9 

47  5I-63° 

78.4 

+  2.9630—  .0022 

—  .001 

—  .0016   o 

.16   .70   .28 

2084 

Groomb  1374 

5-7 

48  13.889 

81.5 

+  7.2722—  .1848 

-.167 

—  .OO2O—  2 

.04   .34  .11 

2085 

Br  1123 

6.9 

48  20.589 

59-7 

+  4.8898-  .0496 

-.038 

+  .0014—  I 

•1.3    -39   -23 

2086 

L  303S 

5-i 

48  31-593 

82.4 

+  2.  2399+.  0017 

+  .OOI 

—  .0164+  2 

.13   .78  .25 

2087 

n  Piipii>iflC3<+4 

3-6 

48  46.772 

85-7 

+  2.O620+.  OOO9 

.000 

—  .0016   o 

.10   .60   .17 

2088 

Pi  187 

5-4 

49  4.386 

73-9 

+  9.6322-.  4073 

—  .406 

—  .0115—  8 

.07    .40   .16 

2089 

L  3049 

4.6 

49  6.307 

79-3 

+  2.I233  +  .OOII 

+  .OOI 

—  .0007   o 

.11    .50   .19 

2090 

L3os2 

5-6 

49  22.903 

89.8 

+  2.2055  +  .OOI3 

+  .OOI 

—  .OOI  I    O 

.14   .72   .20 

2091 

Br  1137 

5-5 

49  49.812 

66.3 

+  3.5067—  .0102 

-.006 

—  .0007   o 

.11     .39    .20 

2092 

Pi  249 

6.0 

So  5-539 

65-5 

+  3.2621—  .0061 

—  .004 

—  .0007   o 

.15    .68   .34 

2093 

L  3074 

6.0 

So  6.573 

86.3 

+  1.4335-.  0041 

-.003 

—  .OOI  I    O 

.20   .81   .27 

2094 

L  3069 

4.8 

50  14.607 

82.8 

+  1.6909—  .0012 

—  .001 

—  .0014   o 

.16  I.  II  .34 

2095 

L  3068 

4-3 

50  21.876 

79-2 

+  1.7639-  .0007 

.000 

—  .0002   o 

.11     .57    .21 

2096 

L  3°S9 

5-6 

50  28.584 

84.4 

+  2.2236+.OOI2 

+  .O02 

—  .0005   o 

.15   .81  .26 

2097 

L  3063 

6-3 

50  54-302 

88.4 

+  2.2539  +  .OOI2 

+  .OO2 

—  .0028   o 

.12     .75    .20 

2098 

Br  1138 

6.1 

Si  18.833 

67-4 

+  3.4106—  .0086 

-.005 

—  .0019   o 

.08   .34  .17 

2099 

Br  1141 

4.4 

52  33-557 

80.2 

+  2.  5786+.  O007 

+  .00  1 

—  .0029   o 

.07     .33    .12 

2100 

L  309? 

5-6 

7  52  48.917 

84-3 

+  1.2443—  .0068 

—  .004 

—  .0118   o 

.14   .70  .23 

2054  ft  1062. 


I3M  4" 


34" 


2058  2  1146.     7*8  3"  13°. 


2060  Innes.     IOM  n"  86°. 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


So. 

Decl.  i  goo 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'  and  ioo  AH' 

Prob.  Errors. 
SEp.  loop.'  Sio 

Remarks. 

2051 

01                 ft 

—  14  19  14.46 

76-5 

//                          // 

-8.576-    .360 

+    .06 

+    .003     o 

.08      .37    .15 

4  Puppis,  also  167  G 

2052 

-37  43  33-°4 

75-8 

—  8.614—    -277 

+    .04 

—    .008     0 

.09      .39    .16 

175  G  Puppis  c 

2053 

-33  S832-S6 

87.8 

-6.928-    .288 

+    .04 

+  1.691  +  3 

.12         .80      .22 

171  G  Puppis 

2054 

+  23  23  17.62 

55-8 

-8.691-    .468 

+    -13 

-    -015     0 

.11         .42      .25 

82  Geminorum  * 

2055 

—  22  16  24.42 

83-4 

-8.700-    .335 

+    .06 

+     .002       0 

.12        .87      .26 

178  G  Puppis 

2056 

-72   21   57.23 

82.2 

-8.711+    .097 

+    .14 

+   .002    o 

.IO        .69     .21 

Dunlop.  IOM  17"  115° 

2057 

+  54  22  43.25 

6i-3 

—  8.679—    -619 

+    .27 

+   .048    o 

.12        .43      .24 

2058 

-II  5649.63 

69.0 

—  8.669—    -364 

+    .07 

+     .061+1 

.09        .43      .20 

5  Puppis  * 

2059 

-47  Si  57-oi 

78.9 

—  8.762—    .224 

+    -03 

+   .012    o 

.12         .77      .27 

L  2999.     7™2  to  9"" 

2060 

-38  15  49.17 

80.7 

-8.788-    .275 

+    .04 

—   .010    o 

•13      -53    -20 

185  G  Puppis  * 

2061 

-25  41  20.13 

79.2 

-8.789-    -323 

+    -05 

—   .007    o 

.IO        .50     .18 

2062 

-46  21  37.00 

80.8 

-8.835-    -233 

+    -03 

—   .007    o 

.15        .8l      .28 

187  G  Puppis 

2063 

-31   22      4.88 

82.2 

-8.838-    .302 

+    .04 

+   .012    o 

.12         .6l      .21 

2064 

-243943.72 

70.2 

-8.833-    -325 

+    -05 

+   .020    o 

.11         ,6l      .27 

1  88  G  Puppis 

2065 

-243631.33 

79-3 

-8.872-    .326 

+    -05 

+  .001    o 

.05         .24      .09 

0  1063.     14"  5"  190° 

2066 

-1658  24.91 

69.0 

-8.994-    .351 

+    .06 

—   .114    o 

.11         .41      .20 

6  Puppis 

2067 

-464931.06 

80.8 

-8.981-    .228 

+    -03 

-  .086+1 

.14         .60      .22 

196  G  Puppis  Q 

2068 

-   8  55  52.09 

79-9 

-8.889-   -373 

+    -07 

+   .007    o 

.12         .55      .20 

2069 

-33    2  i2-74 

90.2 

-8.909-   .295 

+    .04 

+   .018    o 

.15    i.io    .26 

197  G  Puppis 

2070 

-46    7  16.85 

75-3 

-8.969-   .234 

+    -03 

—   .009    o 

.IO        .51      .20 

199  G  Puppis  P 

2071 

+  2    i  19.56 

79-8 

—  8.991—   .402 

+    .09 

—    .006    o 

•"      -33    -15 

2072 

-56    928.04 

82.8 

-9.013-   .164 

+    -03 

+   .007     o 

.14      .71    .24 

60  G  Carinas 

2073 

-12  33  49.02 

75-7 

-9.045-   .362 

+    .07 

—     .022      O 

.12        .64     .25 

8  Puppis 

2074 

+  22  35  29.65 

69.8 

-9-053-   -461 

+    -13 

—   .024    o 

.12        .46     .22 

84  Geminorum 

2075 

-1337  57-6o 

75-3 

-9-373-   -357 

+    .07 

-   -339    o 

.06        .26     .11 

9  Puppis  * 

2076 

+  47  38  41-23 

68.4 

—  9.044-   .566 

+    -23 

—   .004    o 

•09        -33      .16 

25  Lyncis 

2077 

-2055    6.84 

92.6 

-9.041-   .335 

+    .06 

+     .010+1 

.13        .77      .19 

2078 

+  27    i  28.75 

66.0 

-9.090-   .474 

+    .14 

-    -°37     o 

.05        .23      .11 

2079 

+  47  49  26.10 

76.4 

-9.065-   .566 

+    -23 

—    .008     o 

.06        .23      .IO 

26  Lyncis 

2080 

—  60    2    3.11 

85.6 

—  8.912—   .124 

+    -03 

+  -155+1 

.14         .65      .21 

6  1  G  Cannae 

2081 

—  50  15  11.62 

89.6 

—  9.125—   .208 

+    -03 

—  .049+1 

.13         .69      .19 

208  G  Puppis 

2082 

-1435  21.34 

69-3 

-9.096-   .355 

+    .06 

—    .017    o 

.12         .42      .21 

10  Puppis 

2083 

—   5  10  10.63 

77-o 

—  9.109—   .381 

+    .08 

—   .019    o 

-13         -65      -25 

2084 

+  74  ii    6.52 

78.9 

-9.152-   .940 

+    -83 

-   -033    o 

.05      .30    .10 

2085 

+  5646    2.65 

56.8 

-9.153-   .631 

+    -31 

-   .025    o 

.11         .36      .22 

52  Camelopardi 

2086 

-34  27  14.01 

73-2 

-8.885-   -285 

+    .04 

+  -257+2 

.12         .65      .27 

212  G  Puppis  * 

2087 

-40  19    4.47 

80.8 

-9.170-   .263 

+    -03 

—   .008    o 

.09         .47      .16 

2088 

+  79  45  10.84 

65-5 

—  9.245-1.243 

+  1-65 

—   .060+2 

.08         .36      .18 

Groomb  1368 

2089 

-38  36  14.12 

73-6 

—  9.201—   .271 

+    -04 

—    .014     o 

.11         .42      .19 

214  G  Puppis  b  * 

2090 

—  36    6  14.95 

82.4 

—  9.221—   .282 

+    .04 

—   .012    o 

.12         .54      .19 

215  G  Puppis 

2091 

+  20    8  52.97 

63.0 

-9.290-   .450 

+    -13 

—   .046    o 

.IO         .38      .20 

85  Geminorum 

2092 

+  97  42-33 

64.0 

—  9.351-   .418 

+    .11 

—   .087     o 

-13         -63      -32 

2093 

-54    627.21 

88.8 

-9.281—   .181 

+    -03 

—    .016    o 

.16         .85      .24 

62  G  Carinae 

2094 

-49  21  10.36 

78-3 

—  9.270—   .214 

+    .04 

+   .006    o 

•13      -75    -27 

216  G  Puppis 

2095 

-47  503I-74 

79-6 

-9.303-   .224 

+    -04 

—   .018    o 

.09      .51    .18 

218  G  Puppis  J  (R) 

2096 

-353655-65 

764 

-9.331-   .283 

+    .05 

-    -037     o 

•IS      -75    -29 

217  G  Puppis 

2097 

-3435    0.32 

80.4 

-9.363-   .286 

+    -05 

-    .036    o 

.14     .67    .24 

220  G  Puppis 

2098 

+  16    3  26.68 

66.9 

-9.407-   .436 

+     .12 

—   .049    o 

.07      .34    .16 

i  Cancri 

2099 

-22  3647.46 

81.0 

-9.447-   .327 

+     .06 

+   .008    o 

.08     .33    .12 

ii  Puppis  (e)  (j) 

2IOO 

—  57      2  17.66 

83-2 

-9.452-   .154 

+     -03 

+    .022  +  2 

.11      .59    .19 

64  G  Carinae 

2075  /3  ioi.     6*0-6™$  <  1">  binary,  23  yrs.  ±. 


2086  Howe.    8M  3"  28ic 


2089  Lowell.    nMn"82° 


86 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

(i  and  100  A  n 

Prob.  Errors, 
a  Ep.     100  )i     a  10 

• 

h     m          s 

5                        S 

s 

s 

1,                    n                „ 

2IOI 

Groomb  1385 

6.0 

7  52  57.864 

80.8 

+  5-0595-  -0589 

—  .041 

+  .0028       o 

.12         .48       .18 

2IO2 

L39ii 

8.1 

53   1-56- 

73-3 

—44.246-  —  16.886 

-•043-  +  3 

•°5         -32       -13 

2103 

Groomb  1359 

6-5 

53    1-67- 

78.6 

+  14.961-—  1.260 

—  .004-  —  15 

.06         .32       .11 

2104 

Br  1139 

5-5 

53    9-570 

68.1 

+  3.1129—  .0041 

—  .001 

—  .0106       o 

.11            .38         .20 

2105 

Br  1135 

6-3 

53  10.088 

83-9 

+  5.1587-.  0638 

-•045 

—  .0019      o 

.06           .42         .13 

2106 

Groomb  1386 

6.2 

53  33-i82 

76.8 

+  5.4162—  .0762 

-•053 

—  .0005—    I 

.11            .42         .18 

2107 

Pi  251 

7-i 

53  38-322 

74.8 

+  5.2176—  .0664 

—  .046 

+  .OOII+     I 

.13            .48         .22 

2108 

L3o8i 

4.9 

53  40-934 

80.  i 

+  2.3QII  +  .OOI3 

+  .OO2 

—  .0008      o 

.IO            .62         .21 

2IOQ 

L3o87 

5-6 

53  41-164 

92.1 

+  1.9682  +  .0007 

+  .OOI 

+  .0009       o 

.20         I.I7         .29 

2110 

L  3089 

5-2 

54    4-069 

83.7 

+  1.9443  +  .0006 

+  .OOI 

—  .0003       o 

.l6            .72         .25 

2III 

X  Cannae 

3-5 

54  I4-I97 

72.0 

+  1.5270—  .0030 

—  .OO2 

-  -0037       o 

.09            .36         .l6 

2112 

Groomb  1392 

6.8 

54  27.254 

74-0 

+4.9152-.  0541 

-.036 

—  .0023-  I 

.13            .44         .20 

2113 

L3"3 

5-7 

54  37-342 

89.4 

+  I.OI74—  .OII2 

-.007 

—  .0024       o 

.18      1.06      .28 

2114 

L  3099 

5-i 

5443-I70 

85-2 

+  I.8844+.OOO2 

+  .OOI 

—  .0028      o 

.l8          I.O2          .31 

2115 

Br  1145 

5-i 

54  44-423 

83.6 

+  2.9992—  .0028 

—  .001 

-  -0033       o 

.08            .48         .15 

2116 

Br  1150 

5-4 

5448.412 

82.2 

+  2.5736  +.0007 

+  .OOI 

—  .0002      o 

.11             .54         .18 

2117 

Br  1140 

6.2 

54  52-877 

79.1 

+  3.6366-  .0133 

-.008 

+  .OOIO         0 

.08            .36         .14 

2118 

Br  1143 

5-9 

55    3-530 

65-1 

+  3.4435  -.0094 

-.005 

—  .0001       o 

.09            .45         .22 

2119 

V  Puppis 

Var. 

55  21.906 

84-4 

+  1.7240—  .0011 

—  .001 

—  .0029      o 

.18            .84         .28 

2I2O 

Cape<»  3°2 

4-7 

55  23-163 

85-1 

+  2.6886     .0000 

+  .OOI 

-T-.OOO6            0 

.11             .54         .l8 

2121 

Br  1144 

6.6 

55  41-934 

75-7 

+  3.6260—  .0132 

—  .007 

—  .0009      o 

.12            .48         .21 

2122 

Br  1146 

6.1 

55  48-353 

68.1 

+  3-4243-  •°°9I 

—  .004 

+  .0004      o 

.10        .52      .24 

2123 

L  3122 

5-8 

55  56-069 

9°-5 

+  1.1116—  .0092 

-.007 

+  .0670+  8 

.l8            .99         .26 

2124 

PulkH  1290 

5-8 

55  56-592 

94-7 

+  3.  1763-.  0051 

—  .002 

—  .0015      o 

.14            .72         .18 

2125 

L3I03 

5-3 

55  56.608 

86.6 

+  2.ii69+.oon 

+  .OOI 

—  .0080—    i 

.15            .78         .24 

2126 

Br  1151 

4-9 

56    8.109 

71.2 

+  3-0533-  -0034 

—  .001 

+  .0037      o 

.12            .45         .21 

2127 

L  3112 

6-5 

56  22.962 

86.9 

+  1.6935-.  0014 

—  .001 

—  .0016      o 

.20            .8l          .27 

2128 

TaX  3359 

6.8 

S6  24.131 

87.9 

+  1.6937-.  0013 

—  .001 

—  .0017      o 

.20            .84         .27 

2I2Q 

Pi  269 

7-3 

57    0.058 

72.8 

+  4.93  2  7  -.0566 

-•035 

—  .0098—    I 

.15            .51          .24 

2130 

Br  1153 

4.6 

57    3-794 

68.8 

+  3.  1229-  .0043 

—  .002 

—  .0026+   I 

.10        .39      .19 

2131 

X  Geminorum 

5-2 

57  22.656 

77.8 

+  3.6922—  .0150 

-.008 

-.0015      o 

.03            .21         .07 

2132 

L  3140 

5-i 

57  54-973 

82.7 

+  1.0297—  .0113 

-.007 

—  .0020      o 

.16            .8l          .28 

2133 

Br  1152 

7.2 

57  56-305 

75-9 

+  3-5479-  -0118 

—  .006 

—  .0028      o 

.13            .50         .21 

2134 

L3n8 

6.0 

57  57-941 

87.0 

+  2.  1924+.  OOI4 

+  .OO2 

-  .0032       o 

.14            .87          .24 

2I3S 

Groomb  1119 

7-3 

58    2.65- 

75-4 

+  65.491  —  32.886- 

-.035-+22I 

.04            .l8         .07 

2136 

L  3i54 

5-o 

59    4-2i6 

84-4 

+  0.7648-  .0175 

—  .012 

—  .0019      o 

.18            .78         .27 

2137 

Brisb  1872 

5-8 

59  18.458 

86.2 

+  2.o6i9+.oon 

+  .OOI 

—  .0015      o 

.l6            .90         .27 

2138 

Br  1156 

5-2 

59  30-296 

72.3 

+  3  -3463  -.0082 

—  .004 

-•-.OO22         O 

.09            .32         .15 

2139 

Groomb  1400 

6.8 

7  59  58.664 

72-4 

+  6.2878-.  1312 

-.078 

+  •0335      o 

.11             .57         .24 

2140 

Abo  164 

7.0 

8    o    1.576 

75-7 

+  2.7105—  .0001 

+  .OO1 

+  .0605      o 

.13            .64         .26 

2141 

£  Puppis 

2.0 

o    4.189 

76-4 

+  2.  1079+.  0013 

+  .00  1 

—  .0030      o 

.07            .30         .12 

2142 

Br  1155 

6-5 

0  14-347 

67.4 

+  4.1722—  .0287 

—  .016 

+  .0004      o 

.14            .50         .25 

2143 

L  3131 

5-4 

o  22.316 

85.8 

+  2.3394+.  0015 

+  .OO2 

+  ,0007      o 

.15            .87          .26 

2144 

Br  1157 

6.4 

o  22.873 

63-7 

+  3-5599-  -0124 

—  .OO6 

—  .0014      o 

.11             .42          .22 

2145 

Br  1154 

4.9 

o  56.252 

85-3 

+  4.5336-  -0417 

-.023 

—  .0058       o 

.04            .26         .08 

2146 

/*  Cancri 

5-5 

i  52-833 

69.9 

+3-5365-  -OI2o 

—  .006 

+  .0018      o 

.09            .38         .17 

2147 

L  3162 

5-6 

2   28.178 

90.2 

+  1.5572-.  0030 

—  .OO2 

+  .0013      o 

.20         I.O4         .28 

2148 

Br  1159 

6.7 

2  3I.20O 

62.4 

+  4.1355-  .0282 

-.015 

+  .OOII—     I 

•15        -57      -31 

2149 

Br  1162 

7-2 

2  42.666 

77-7 

+  3.6767-.  0153 

-.008 

—  .0009      o 

.11        .34      .16 

2150 

Br  1148 

5-6 

8    2  51.896 

71.4 

+  6.0305  -.1199 

-.065 

+  .0008      o 

.06            .28         .12 

2109  7M  fols. 


,  N  64'' 


2H9  Var.     4*4  to  $M2.     9™  39"  40°;  IOM  7" 


°;  IIM  19"  50° 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


87 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

|i'andiooA(i' 

Prob.  Errors. 
SEp.  loop.'  Sio 

Remarks. 

2IOI 

0             /                 // 

+  59  19    7-78 

81.2 

//            // 
—   9.462—    .646 

// 

+  •35 

m 
+  .024      o 

it         n       a 
.10      .39    .15 

2IO2 

-883424.83 

75-6 

—   9.481  +  5.690 

+  .009+  6 

.05      .29    .11 

A  Octantis 

2103 

+  84  20  49.77 

84-3 

-   9-5I9-I-9I6 

-.028+   i 

.07         .39     .12 

2IO4 

+     2   29  29.11 

61.9 

-   9.406-    .394 

+  .09 

+  .095+   i 

.11         .42      .23 

14  Canis  Min 

2105 

+  6035  52.34 

75-i 

-   9.524-    .658 

+  •37 

—  .022      o 

.07         .26     .11 

53  Camelopardi 

2IO6 

+  63   21   53.78 

71.1 

-   9.552-    .691 

+  .41 

—  .021      o 

.10      .30    .15 

South  8M  47"  82° 

2IO7 

+  61  16    1.18 

72-3 

-   9.500-    .665 

+  .38 

+  .038      o 

.11        .42  .  .19 

2108 

-3°    355-77 

75-2 

-  9-533-   -302 

+  •05 

+  .008      o 

.10      .44    .18 

225  G  Puppis 

2IOQ 

-43  13  55-63 

91.0 

-  9.525-   .248 

+  .04 

+  .016      o 

.16    1.05    .26 

227  G  Puppis  * 

2IIO 

—  43  50  26.86 

79-9 

-  9.565-   .245 

+  .04 

+  .006      o 

.13         .58      .22 

228  G  Puppis  AT 

2III 

-52  42  50.64 

75-o 

-  9-567-   -191 

+  -03 

+  .017      o 

•08         .35      .14 

2112 

+  5733    1-61 

70-9 

-  9.673-   .625 

+  •33 

-  -073      o 

.10      .33    .16 

54  Camelopardi 

2113 

-60  15  28.85 

82.4 

—  9.614—   .126 

+  -03 

—  .001      o 

.14         .67      .23 

66  G  Cannae 

2114 

—  45  18  28.46 

79-4 

—  9.610—   .236 

+  .04 

+  .OII         O 

•IS      -73    -27 

231  G  Puppis  O 

2115 

-   3  24  25.04 

76.1 

-  9.621-   .379 

+  .09 

+  .OOI         O 

.08    .37  .15 

27  Monocerotis 

2116 

-23    2  18.99 

81.9 

-  9-637-   -325 

+  .06 

—  .009      o 

.12         .51      .19, 

12  Puppis 

2117 

+  253959-76 

76.1 

-  9-634-   -461 

+  .14 

—  .001      o 

•07      -33    -!3 

2  Cancri  u>  l  (o>) 

2118 

+  17  3457-73 

58-9 

-  9.662-   .436 

+  .14 

-.015      o 

.08         .31      .18 

3  Cancri 

2IIQ 

—  48  58  25.09 

80.  i 

—  9.676—   .216 

+  .04 

—  .006      o 

.14         .64      .24 

1^31052336  Puppis* 

2I2O 

—  18    7  29.17 

78-3 

-  9.717-   .339 

+  .07 

-  -045      o 

.11         .57      .21 

232  G  Puppis 

2121 

+  25  21  53.09 

74-o 

—  9.684—   .458 

+  -I5 

+  .OI2         O 

.12        .44     .20 

4  Cancri  to  2 

2122 

+  1643  51-?2 

65.0 

-  9-7I3-   -433 

+  •13 

—  .009      o 

.08        .40     .20 

5  Cancri 

2123 

—  6O      2      5-22 

84.0 

-  9-594-   -146 

+  .03 

+  .120-   8 

.13        .59     .20 

69  G  Carinas 

2124 

+   59  J7-49 

91.7 

-  9.704-   .401 

+  .ii 

+  .OII         O 

.13        .67      .18 

2125 

-39    i  20.43 

82.2 

-  9-753-   -265 

+  .04 

-.038+  I 

.12        .55      .19 

234  G  Puppis 

2126 

—    i    6  54.00 

73-i 

—  9.808-   .386 

+  .09 

-  .079      o 

.09        .36     .l6 

28  Monocerotis 

2127 

-4942  12.53 

88.1 

-  9.753-   .211 

+  04 

-.005      o 

.16        .8l      .24 

236  G  Puppis  1 

2128 

—  4942    i.io 

91.2 

-    9.738-     .211 

+  .04 

+  .OI2         O 

.17      1.03      .26 

237  G  Puppis} 

2I2Q 

+  58    3  23.27 

62.9 

-  9.886-  .622 

+  -34 

—  .091+  I 

•14      -45    -25 

2130 

+   2  36  33.34 

68.2 

-  9-701-  .392 

+  .10 

+  .099      o 

.09      .34    .17 

2131 

+  28    4  29.04 

75-3 

-  9.876-  .465 

+  .16 

—  .052       o 

.04        .22      .08 

Br  1149  6  Cancri 

2132 

—  60  18  41.30 

81.8 

—   9.849—  .126 

+  .03 

+  .016      o 

•  13      -73    -24 

73  G  Cannae 

2133 

+  22   21      3.74 

69.9 

—  9.887—   .446 

+  .14 

—  .020      o 

.12        .43      .21 

7  Cancri 

2134 

-37    021.45 

83.8 

-  9.870-  .274 

+  .04 

—  .001       o 

.13        .71      .23 

241  G  Puppis 

2135 

+  88  55  59.22 

84-5 

-  9.868-8.302 

+  .007+  4 

.04        .25      .08 

4  B  Ursae  Min 

2136 

-63  17  24.77 

82.8 

-  9.938-  .092 

+  .04 

+  .015       o 

.15        .67      .24 

77GCarinaeZ>(Z»') 

2137 

—  41    i  47.10 

83-5 

-  9.967-  .256 

+  .04 

+  .004      o 

•13        -71      -23 

L  3128?  246  G  Puppis* 

2138 

+  13  24  II.  12 

69.2 

—  10.064—  -4J8 

+  .13 

—  .078      o 

.08        .30     .15 

8  Cancri 

2139 

+  70     039.02 

67.2 

-  9.920-  .794 

+  .63 

+  .102-   4 

.IO        .41      .20 

2140 

—  17   22  56.07 

75-4 

-10.045-   .338 

+  .07 

—  .020      o 

.12        .65      .26 

2141 

-3943  17-03 

72.8 

—  IO.O22—    .26l 

+  .04 

+  .007       o 

.07        .30     .13 

2142 

+  43  32  51.10 

60.6 

-10.073-    -522 

+  .22 

-  .031       o 

.11        .36     .21 

28  Lyncis    . 

2143 

-32  23  30.90 

77.2 

—  10.061  —  .291 

+  -°5 

—  .009      o 

.13      ..63      .24 

250  G  Puppis 

2144 

+  22  55  15.85 

53-5 

—  10.068—  .444 

+•15 

-.015       o 

.08        .30     .19 

9  Cancri  (fi  ') 

2145 

+  51  47  41.87 

80.3 

—  IO.IO2—    .566 

+  .28 

-.008+  I 

.04         .20      .07 

27  Lyncis 

2146 

+  21   52   19.60 

69.4 

—  10.247—   -44° 

+.14 

—  .081      o 

.07         .35      .16 

Also  i  o  Cancri  /A  a 

2147 

-52  4917.91 

84.8 

—  10.232—   .191 

+.03 

—  .022       o 

-15      -73    -24 

78  G  Carime 

2148 

+  42  43  24.64 

62.5 

—  10.286—   .515 

+  .22 

—  .072       o 

.12        .53      .28 

2149 

+  27  46  16.92 

69.2 

—  10.262—   .456 

+  .16 

-  -034      o 

.09        .29     .15 

ii  Cancri  * 

2150 

+  68  46    6.85 

68.9 

-10.235-   -752 

+  .58 

+  .005       o 

.05        .24     .11 

55  Camelopardi 

21 37      9M  pr.  0^63,  N  2&". 


2149      IOM  3"  218°. 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3«t 

H  and  100  A  p 

Prob.  Errors, 
a  Ep.     100  n     a  10 

M 

h     m          s 

s                s 

s 

s 

//             //          // 

2151 

Capejo  1405 

5-4 

8    2  53.302 

90-3 

+  2.6474+.  0004 

+  .00  1 

—  .0007       o 

.12            .78         .20 

2152 

Br  1165 

6-5 

3    7-i6s 

63.8 

+  3-3574-  -0085 

—  .004 

+  .0002       o 

.11             .44         .23 

2153 

p  Puppis 

2.8 

3  I7-i23 

73-o 

+  2.5545  +  .OOIO 

+  .001 

—  .0065       o 

.03            .16         .07 

2154 

L  3163 

4.9 

3  27.800 

83.1 

+  I.9253  +  .0005 

+  .OOI 

—  .0008      o 

.l6            .70         .25 

2155 

Br  1168 

4-5 

3  34-089 

74-8 

+  3.0168—  .0031 

.000 

—  .0016       o 

.IO            .40         .17 

2156 

Br  1166 

7.0 

4  10.525 

71.2 

+  3.6334-  -0145 

—  .006 

—  .0008      o 

.11             .40         .19 

2157 

Br  1167 

6.1 

4  25.855 

68.6 

+  3.  6207-.  0147 

—  .006 

—  .O05I—     2 

.07             .28         .14 

2158 

Br  1174 

4-4 

433-782 

73-6 

+  2.6785  +  .OOO2 

+  .OOI 

—  .OOIO         0 

.11             .45          .20 

2159 

CapeM  1414 

5-7 

4  54-085 

93-4 

+  2.7461—  .0003 

+  .OOI 

+  .0005       o 

.13            .8l          .19 

2160 

Groomb  1391 

6.4 

5  12.532 

71.0 

+  12.0350—  .8422 

—  .322 

—  .0019—  10 

.08            .39         .17 

2161 

Pi  321 

7-2 

5  22.609 

74-9 

+  3-7707-  -0198 

—  .009 

-.0364-   4 

.09            .44         .l8 

2162 

Pi  311 

6.0 

5  52-252 

58-2 

+  4.8126-  .0555 

—  .027 

+  .0015—    i 

.13            .42         .25 

2163 

Br  1176 

5-8 

6    i-757 

70-3 

+  2.7829—  .0008 

+  .00  1 

—  .0158      o 

.10        .38      .18 

2164 

L3i8i 

6.0 

6  10.664 

83.8 

+  1.7890—  .0005 

.000 

—  .0009      o 

.16           .84        .28 

2165 

L  3180 

5-3 

6  18.127 

89.4 

+  i.  9803  +  .0008 

+  .OOI 

+  .0009      o 

.18       i.  io       .29 

2166 

y1  Velorum 

4.8 

6  24.477 

75-4 

+  1.8488    .0000 

.000 

—  .0007       o 

•  13       -54     -23 

2167 

y2  Velorum 

1.6 

6  27.084 

67-3 

+  1.8496     .0000 

.000 

—  .0004       o 

.08         .33       .16 

2168 

t  '  Cancri  m 

4-7 

6  28.653 

71.9 

+  3.4456—  .0106 

—  .004 

+  .0046—    I 

.06         .30       .13 

2169 

f  2  Cancri 

6.1 

6  28.981 

70.1 

+  3.4469—  .0106 

—  .004 

+  .0059-  I 

.11         .87       .36 

2170 

Br  1177 

4.8 

6  34-803 

72.8 

+  2.8157—  .0009 

+  .OOI 

—  .0017      o 

.11         .40       .19 

2171 

L3i87 

5-5 

6  40.745 

854 

+  1.8240—  .0002 

.000 

—  .0008      o 

.20        I.I7         .35 

2172 

Pulk«  1319 

5-6 

6  41.072 

94-o 

+  2.9195—  .0021 

.000 

—  .0036       o 

.13            .87         .19 

2173 

Br  1173 

5-8 

6  57.09S 

72.7 

+    3-7275—  -O1?2 

—  .007 

+  .0001       o 

.11            .45         .20 

2174 

Br  1147 

5-9 

6  59.198 

80.0 

+    7.6585-.  2580 

—  .109 

+  .0067       o 

.04           .28         .IO 

2175 

L32o8 

5-9 

7  I3-9SO 

83-9 

+    1.  4036-  .0052 

-.003 

+  .0019      o 

.18           .78         .27 

2176 

L3i83 

6-5 

7  I9-978 

87.4 

+  2.2i49+.ooi6 

+  .OO2 

—  .0020       o 

.14            .75         .22 

2177 

L  3222 

4.8 

7  21.141 

84.4 

+  i.  0033-  .0143 

-.008 

—  .0209—   9 

.18        .86      .28 

2178 

Br  1164 

6-5 

7  24.824 

65.8 

+  5.0917-.  0697 

-.032 

—  .0021       o 

.12             .46         .24 

2179 

e  Volantis 

4.4 

7  36-56° 

77-2 

+  0.2147-.  0367 

—  .025 

—  .0032       o 

.15        .66      .26 

2180 

1,3191 

4.2 

7  47.188 

87.2 

+  2.i435  +  .ooi5 

+  .OOI 

.0000      o 

.15            .78         .22 

2181 

L3*97 

4-9 

8    3-179 

85-4 

+    2.O27O+.OOII 

+  .OOI 

—  .0001       o 

.16            .75         .25 

2182 

Br  1169 

7.0 

8  42-157 

68.0 

+    4.9936-  .0657 

—  .029 

+  .0013—    I 

.IO            .46         .22 

2183 

Br  1179 

5-2 

8  44.191 

82.9 

+    2.7580—  .OOO4 

+  .00  1 

—  .0009      o 

.05             .28         .09 

2184 

L  3213 

5-8 

8  5I-233 

83-4 

+     1.  8833  +.0002 

+  .OOI 

-  .0039       o 

.l8          1  .08         .34 

2185 

Br  1171 

5-6 

9  32.122 

67.2 

+    5.0l8l—  .0673 

—  .029 

+  .0005       o 

.10        .30      .17 

2186 

Br  1160 

6.4 

9  39-370 

70.1 

+    6.6993-.  1788 

—  .070 

+  .OOO7—     2 

.09            .39         .18 

2187 

L  3212 

4.8 

9  43-029 

82.6 

+  2.2648  +  .ooi7 

+  .OO2 

.0000      o 

.12            .54         .19 

2188 

1,3219 

5-2 

10  12.967 

87.2 

+  2.  2539+.  0018 

+  .OO2 

+  .0006      o 

•15        -75      -23 

2189 

Brisb  1942 

6.2 

10  13.436 

89.1 

+  2.2539+.  0018 

+  .OO2 

+  .0011       o 

•  15        -9°      -24 

2190 

1,3217 

6.3 

10  13.731 

84.1 

+  2.37i5  +  .ooi7 

+  .003 

—  .0014       o 

.12           .66         .21 

2191 

1,3228 

5-3 

10  28.416 

85-7 

+    1.8766+.  OOO2 

+  .OOI 

—  .0017       o 

-20         1-35          .38 

2192 

L3223 

4-3 

10  29.862 

86.4 

+    2.  13IO+.  OOI5 

+  .OO2 

+  .0046       o 

.14            .69         .22 

2193 

Br  1172 

5-9 

1035-154 

71.6 

+  5.2611—  .0811 

-•034 

—  .0024       o 

.09            .39         .18 

2194 

1-3236 

5-5 

10  40.480 

91.7 

+  1-7375-  -o010 

.000 

+  .0008       o 

.20         I.I4         .28 

2195 

j8  Cancri 

3-7 

II  5.563 

76-5 

+  3.2568-  .0072 

—  .002 

—  -0035       o 

.03            .18         .07 

2196 

L  3237 

6.2 

II  11.154 

84.8 

+  i.  9269+.  0006 

+  .OO2 

—  .OOIO         O 

.16            -75         .25 

2197 

Br  1178 

6.1 

12   2I.6lO 

57-8 

+  4.8753-.  0616 

—  .025 

+  .0072      o 

.11             .36         .22 

2198 

Br  1184 

6.6 

12  48.032 

66.3 

+  2.7510—  .0003 

+  .O02 

—  .0012       o 

.13            .44         .22 

2199 

PulkM  678 

6-3 

13  39-i85 

89-4 

+  2.8483—  .0020 

+  .OOI 

+  .0191-  5 

.O?             .75         .17 

22OO 

L-3275 

5-3 

8  13  45-076 

83-3 

+  0.9150—  .0162 

—  .Oil 

—  .0052—    I 

.16            .82         .28 

2155  2  iioo. 


i2M  32"  105°; 


67"  245°. 


2170  /3  1064.   I2M  2"  245°. 


2178  S  1192.      IOM  3"  257°. 


CATALOGUE  OF  6188  STARS  FOR  1900 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

n'  and  ioo  A  (i' 

Prob.  Errors. 
SEp.  loop'  Sio 

Remarks. 

2151 

-20  15  55.57 

86.8 

—  10.267—    -327 

+    .07 

it 
—  .026      o 

//         //        tt 

.11         .75      .21 

252  G  Puppis 

2152 

+  1355  54-73 

62.7 

—  10.292—    .416 

+    -13 

-  -033       ° 

.10      .43    .23 

12  Cancri 

2153 

-24    057.37 

73-7 

—  10.226—    .314 

+    .06 

+  .045+  I 

.04         .19      .08 

15  Argus,  iNavis,  etc. 

2154 

-445838.57 

81.8 

—  10.297—    -236 

+    -04 

—  .012       o 

.12         .60      .21 

3  G  Velorum 

2155 

-    2  41  33.45 

69.4 

-10.299-   .373 

+     .10 

—  .007      o 

.08         .29      .14 

29  Monocerotis  (£)  * 

2156 

+  26    8  19.23 

66.2 

-10.376-   .449 

+    -15 

-  .038       o 

.09         .34      .17 

13  Cancri  i^1 

2157 

+  25  4839-10 

59-6 

-10.711-    .447 

+    -15 

-•354+    i 

.06         .25      .14 

14  Cancri  ^  («/-) 

2158 

-1857    8.05 

73-i 

-10-375-  -330 

+    .07 

—  .008       o 

.10      .36    .17 

1  6  Puppis 

2159 

-1557  19.52 

87.0 

-10.404-  .338 

+    .07 

—  .012       o 

.13         .75      .22 

257  G  Puppis 

2160 

+  82  44  26.46 

70.1 

—  10.446—  1.494 

+  3-10 

-.031       o 

.11         .41      .20 

2161 

+  32  46  16.50 

70.6 

—  11.092—  .461 

+    .18 

-.664+  4 

.08         .34      .16 

2162 

+  5645    7-°3 

53-6 

-10.504-  .594 

+    -33 

-  -039      o 

.12         .45      .28 

2163 

-  13  30  18.49 

72.2 

-10.432-  .339 

+    .08 

+  .045+    2 

.08         .34      .15 

18  Puppis 

2164 

-48  23  24.16 

80.4 

-10.505-   .218 

+    .04 

—  .017       o 

.13         .64      .23 

6  G  Velorum 

2165 

-  43  49  40.30 

87-5 

—  10.517—  .242 

+    .04 

—  .020      o 

•14      -95    -26 

7  G  Velorum 

2166 

-47    3    2-Si 

73-6 

—  10.520—  .225 

+    -04 

-.015       o 

.10      .44    .19 

8  G  Velorum  Bb  1916 

2167 

-47    2  30.71 

69.9 

-10.511-   .225 

+    -04 

-.003       o 

.07      .30    .14 

2168 

+  17  5657-54 

69.7 

—  10.650—   .424 

+    -14 

—  .140—    I 

.05      .25    .11 

1  ?  '  is  binary,  <i",  59  yrs.  ± 

2169 

+  17  56  54.60 

66.9 

—  10.624—   -424 

+    -14 

—  .114—    I 

.09      .61    .28 

Js'.'4"4°slow 

2170 

-  12  37  49.04 

72-5 

-10.507-  .345 

+    .08 

+  .OII         0 

.10      .37    .17 

19  Puppis  * 

2171 

-47  3831.69 

79-9 

—  10.550—    .222 

+    .04 

-  .025       o 

.16    .77   .28 

10  G  Velorum 

2172 

—   7  28  28.32 

9°-3 

-10.554-    .357 

+    .09 

—  .029      o 

.12        .69      .18 

i  G  Hydrae 

2173 

+  29  57  22.70 

65.0 

—  10.568—    .458 

+    -17 

-  .023       o 

.08        .34     .18 

15  Cancri  (i/-  Gem.) 

2174 

+  76    3  44.24 

86.1 

-10.536-    .946 

+  1.08 

+  .OI2—     I 

.04        .34     .09 

2175 

-  55  47  25-94 

83-1 

-10.544-    .170 

+    -03 

+  .022          0 

.15        .67      .23 

80  G  Carinae 

2176 

-365941.92 

83-2 

—  10.569—    .270 

+    -05 

+  .005       o 

.12         .59      .20 

265  G  Puppis 

2177 

-605955.61 

79-9 

—  10.863—  •II7 

+    .04 

-.288+  3 

.13         .64      .23 

82  G  Carinae  R 

2178 

+  60  40  58.47 

57-8 

—  10.572—  .626 

+    -39 

+  .008       o 

.11         .34     .21 

56  Camelopardi  * 

2179 

-68  1923.87 

76.0 

—  10.572—     .022 

+    -07 

+  .O22          O 

•12         -57      .23 

Dunlop.   8M6"24° 

2180 

-39  19  13.48 

81.2 

—  10.627—     -261 

+    -04 

—  .020      o 

•13        -57      -21 

267  G  Puppis  h1 

2181 

-42  41  19.65 

82.7 

—  10.632—     .246 

+    .04 

—  .005      o 

.13         .64      .22 

268  G  Puppis 

2182 

+  59  2940.31 

68.7 

—  IO.7I2—     .6l2 

+    -38 

-.037       o 

.09         -47      .22 

2183 

-15  29  12.85 

78-7 

-10.685-     -336 

+    -07 

—  .007       o 

.06         .29      .11 

20  Puppis 

2184 

—  46  20  40.74 

83-9 

—  10.707—     .227 

+    -04 

—  .021       o 

.15      1.02      .31 

13  G  Velorum 

2185 

+  59  52  39-6o 

65.2 

-10.740-     .613 

+    -39 

-  .003       o 

.10      .25    .15 

29  Lyncis 

2186 

+  7243    3-35 

73-i 

-10.773-     .820 

+    .80 

—  .027      o 

.08         .41      .I? 

21193.    9M44"86° 

2187 

-353550-82 

71.1 

-10.763-     .274 

+    -05 

-.013       o 

.11         .51      .23 

274  G  Puppis  r 

2188 

-36    i    8.51 

84.2 

—  10.792—     .272 

+    -05 

-.005       o 

.13         .69      .22 

276  G  Puppis  1 

2189 

—  36      2   I5.l6 

84.2 

—  10.805—  -272 

+    -°5 

—  .017       o 

.13         .69      .22 

277  G  Puppis  f 

2190 

-31   50  14.34 

80.0 

-10.799-  -287 

+    -05 

—  .Oil         O 

.12         -57      .21 

275  G  Puppis 

2191 

—  46  41    ig.OI 

86.8 

—  10.840—  .226 

+    -04 

-  -034      o 

•17    i-37    -36 

15  G  Velorum  * 

2192 

-40      232.19 

80.6 

-10.878-  .258 

+    -05 

—  .070—    I 

•13      -S3    -20 

279  G  Puppis  h3 

2193 

+  62  48  58.39 

72.1 

—  10.805—  -641 

+    -44 

+  .009      o 

.08    .34  .15 

57  Camelopardi 

2194 

-4953  33-39 

9°-5 

—  10.845—  -2°8 

+    .04 

—  .024      o 

.l6      I.O2      .26 

16  G  Velorum 

2195 

+  9  29  37.54 

73-6 

-10.906-  .394 

+    -13 

-  .054      o 

.03         .17      .07 

2196 

-45  31  47  -8  1 

80.0 

—  10.862—  .231 

+    .04 

—  .004      o 

-14      -59    -23 

17  G  Velorum 

2197 

+  58    3  18-18 

55-5 

-10.927-  .592 

+    -36 

+  .018-  I 

-09         -37      -22 

30  Lyncis,  58  Camelopardi 

2198 

-iS  5831-79 

70-5 

-10.995-  -331 

+    .08 

—  .018       o 

.11      .40    .19 

21  Puppis 

2199 

—  12   17  36.18 

86.4 

-12.030-  .344 

+    .08 

-.991-     2 

.07      .71    .18 

2200 

-62  3624.75 

78.0 

—  11.074—  .106 

+    -04 

-.028+  I 

-13      -59    -23 

84  G  Carinae  C  * 

2191    8«pr.  i;i;,  N33 


4200      8?6  4"  62° 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   1 900 


Ho. 

Designation.. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

|i  and  100  A  n 

Prob.  Errors. 

aEp.      I00|i     a  10 

M 

h    m          s 

S                     5 

5 

s 

/'               n            // 

22OI 

Brisb  1962 

6.8 

8  13  54.3I7 

86.0 

+  2.  4403  +  .001  7 

+  .003 

+  .0036      o 

.13           .84        .24 

22O2 

X  Cancri 

5-3 

13  S9-46i 

68.4 

+  3-6525-  -OI67 

—  .OO6 

-.0009-   3 

.07           .28        .14 

2203 

Pi  30 

6.8 

14  20.020 

70.0 

+  5.0781-.  0735 

-.027 

+  .0015      o 

•ii        -57      -25 

22O4 

L3257 

5-8 

14  28.383 

80.9 

+  2.29I9+.OOI9 

+  .003 

+  .0029      o 

.16      i.  20      .39 

2205 

Pi  42 

6.1 

1431.077 

73-8 

+  3-5059-  -0126 

—  .OO4 

+  .0050      o 

.10            .48         .20 

2206 

A  Cancri 

6.1 

14  3S-466 

68.5 

+3.5744-  .0143 

-.005 

—  .OOI  I          O 

.07            .34         .16 

2207 

L32S9 

4-5 

14  48.724 

80.  i 

+  2.2445  +  .OO2O 

+  .002 

—  .0096      o 

.09            .38         .14 

2208 

Br  1183 

4-4 

15  59-49° 

83-4 

+4.1233-  .0315 

—  .on 

—  .0008—    I 

.04            .27          .08 

2209 

1,3276 

6.9 

16    1.050 

79-8 

+  1.8453     -oooo 

+  .OOI 

—  .0016       o 

.l6            .90         .32 

22IO 

Pi  40 

5-8 

16  14.234 

73-o 

+4.5683-.  0498 

-.018 

—  .OO26—     2 

.12            .34         .17 

2211 

Dpt  984  m 

6.7 

16  15.782 

90.6 

+3.  0463  -.0038 

.000 

—  .OOI2          0 

.12            -57         .l6 

2212 

Paris  10245 

5-8 

1653-719 

94.1 

+  2.  6767  +  .OOO4 

+  .002 

+  .0014       o 

.15            .84         .20 

2213 

1,3291 

7.0 

i?  10-545 

85-4 

+  1.6732—  .0016 

—  .001 

—  .0048      o 

.16         1.  12         .32 

2214 

L  33i3 

S-o 

17  12.465 

85.2 

+0.6739-  .0235 

-.017 

+  .0017+  I 

.l8           .90         .29 

2215 

Paris  10258 

6.1 

17  22.331 

93-5 

+  2.7234     .0000 

+  .002 

-  .0059      o 

.13            .70         .17 

22l6 

£3277 

4-9 

17  26.759 

79-4 

+  2.3623  +  .0019 

+  .003 

—  .0008       o 

.11             .60         .21 

2217 

L328i 

5-3 

17  34-435 

84.7 

+  2.266O+.OO2O 

+  .003 

—  .0002       o 

.15            .70         .23 

2218 

Br  1185 

6.1 

17  38-318 

73-i 

+3.4406—  .0114 

-.003 

-  .0039       o 

.06            .30         .13 

22IQ 

L3287 

6.4 

17  47-047 

89-5 

+  2.  1708+.  OOI9 

+  .002 

+  .0006       o 

.13            .78         .21 

222O 

Groomb  1433 

6-3 

i?  56-565 

60.7 

+  4.0764—  .0301 

—  .on 

+  .0007       o 

•H        -57      -3i 

2221 

Br  1189 

6-5 

18    4.828 

75-2 

+  2.82O6—  .OOIO 

+  .OOI 

—  .0029       o 

.11             .50         .21 

2222 

Abo  172 

8-3 

18  20.001 

85.0 

+  3.6264—  .Ol6l 

—  .004 

—  .0015       o 

.10        .44      .15 

2223 

Br  1187 

6-5 

18  27.117 

80.  i 

+  3.  2857-.  008I 

—  .001 

+  .0005      o 

.12             .36         .l6 

2224 

Pi  60 

6.1 

18  36-356 

80.5 

+  2.5347  +  .0014 

+  .002 

—  .0008       o 

.11             .54         .20 

2225 

^3315 

6.2 

18  58.597 

83.2 

+  1.3338-  .0070 

-.005 

—  .0045      o 

.18            .75         .27 

2226 

L  3308  m 

4-9 

19  27.096 

77-4 

+  1.8455  +  .0001 

+  .OOI 

—  .0017       o 

.l6            .8l          .31 

2227 

Br  1194 

5-7 

19  35.9I9 

73-o 

+  2.9924-  .0033 

+  .OOI 

-  -0143     ° 

.08            .34         .15 

2228 

ic1  Volantis 

5-5 

20    6.412 

81.8 

—  0.1480—  .0577 

•  -  .047 

—  .0062  +    I 

.18            .72         .27 

222Q 

Br  1192 

6.4 

20  10.305 

71.0 

+  3.4017—  .0111 

—  .002 

-.0130-  I 

.09            .36         .16 

2230 

K2  Volantis 

5-8 

20  17.774 

83.8 

-0.1391-.  0574 

-.047 

—  .0009+     2 

.18            .78         .27 

2231 

Pi  46 

6.2 

2O  2O.4I2 

75-8 

+  5-7I93-  -ii9° 

-.030 

—  .0098+   I 

.IO            .44         .l8 

2232 

.Br  1190 

6.0 

2O  22.892 

64.9 

+  3.6569-  .0174 

-.005 

—  .0023—    I 

•13        -57      -29 

2233 

e  Cannae 

1.4 

20  27.754 

66.6 

+  1.2356—  .0091 

—  .006 

—  .0038      o 

.08        .33      .16 

2234 

Pi  67 

5-3 

20  32.949 

71.7 

+  3.2209—  .0069 

—  .001 

—  .0029      o 

.15        .62      .28 

2235 

Cord  11272 

5-9 

20  34.I32 

96-4 

+  2.6io4+.oon 

+  .002 

—  .0019       o 

.13         1.24         .21 

2236 

Groomb  1437 

6.7 

2O  38.411 

79-4 

+4.2003-.  0364 

—  .OI2 

-.0031-   4 

.11             .60         .21 

2237 

Br  1197 

3-9 

20  39.849 

81.7 

+  2.  9996-  .0033 

+  .001 

—  .0044      o 

.04            .24         .08 

2238 

Br  1193 

7-6 

2O  43.000 

75-0 

+3.5756-  .0152 

—  .004 

—  .0029      o 

•09        -33      -15 

2239 

Pi  66 

8.1 

20  43  -33  ! 

90-3 

+  3-5757--OI52 

—  .004 

T   .OO29              O 

.13        .62      .18 

224O 

Grw«  754 

6.7 

20  44-223 

81.2 

+  3.6347-.  0166 

—  .004 

—  .0005       o 

•09        -39      -15 

2241 

Briigi2 

6.2 

20  44-455 

77-4 

+  3.6347-  -0166 

—  .004 

—  .0005       o 

.10        .36      .15 

2242 

Pi  72 

5-7 

20  44-647 

82.0 

+  2.5885  +  .ooi2 

+  .OO2 

-  .0039      o 

.11        .57      .19 

2243 

Pi  74 

8.2 

20  47.689 

89.2 

+  2.59o8  +  .oon 

+  .OO2 

—  .0017       o 

.14        .93      .24 

2244 

aChamaeleontis 

4.0 

21      6.637 

80.3 

—  1.4828—  .1424 

--I3S 

+.0258+17 

.11        .58      .21 

2245 

Br  1196 

5-9 

21   12.133 

65-3 

+3.3221-.  0091 

—  .OO2 

—  .0017—    I 

.12            .39         .21 

2246 

Br  1199 

5-6 

21   27.439 

72-4 

+  2.9991-.  0032 

+  .OOI 

—  .0036       o 

.12            .50         .22 

2247 

o  Ursae  Maj 

3-4 

21  57.603 

69-9 

+  5.0230—  .0768 

—  .020 

—  .0167—    I 

.03            .15          .07 

2248 

PulkM  1346 

5-9 

21  58-933 

96-9 

+  2.8309—  .001  1 

+  .OOI 

—  .0061      o 

.12            .84         .l6 

2249 

L3323 

5-6 

22  22.OO2 

87.2 

+  2.  0985  +  .00  1  8 

+  .O02 

-.0013      o 

•16        -75      -24 

2250 

L3337 

5-3 

8  22  40.405 

91.2 

+  1.7073—  .0013 

.OOO 

—  .0049       o 

.20      1.14      .29 

2217  h  4085.     IIM  6"  270°. 


3226  Innes.     6*?6  I'.'o  141° 


CATALOGUE   OF   6188   STARS   FOR    IQOO 


No. 

Decl.  i  goo 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'andiooAp.' 

Prob.  Errors. 
SEp.  loop.'  Sio 

Remarks. 

22OI 

0             /                 // 

-2941  33.01 

80.8 

//          tt 
—  11.038—  .292 

// 

+  .06 

it 
+  .020       o 

//         //       // 
.13      .75    .26 

286  G  Puppis,  L  3251 

22O2 

+2732  29.55 

69.0 

-11.452-.  439 

+  •17 

-.388      o 

.06      .27    .13 

2203 

+60  56  51.83 

67.2 

—  11.092—  .612 

+  .41 

-.003      o 

.IO         .46      .22 

Groomb  1427 

22O4 

-35    823-4i 

73-9 

-ii.  134-  .274 

+  .05 

-•035      o 

.l6      1.29      .49 

287  G  Puppis 

2205 

+  21    347-34 

72.6 

-ii.  159-  .421 

+  •15 

-.057-  I 

.09         .46      .19 

2206 

+  24  20  13.94 

65-2 

-ii.  139-  .429 

+  .16 

—  .031      o 

.06         .32      .l6 

22O7 

-36  2057.82 

76.0 

—  11.039—  .266 

+  .05 

+.085+  I 

.08         .37      .15 

289  G  Puppis  q 

2208 

+  43  30  32-20 

74-9 

-11.317-.  494 

+  .24 

—  .107       o 

.05      .23    .10 

31  Lyncis 

22OQ 

-4753    i-58 

76.0 

-ii.  233-.  218 

+  .04 

—  .022       o 

.13         .67      .26 

23  G  Velorum 

22IO 

+  53  32  30-33 

68.2 

-i  i.  338-  .547 

+  -3I 

—  .III          0 

.IO         .30      .l6 

2211 

-    i  17    3-45 

81.2 

-11-275-  -363 

+  .11 

—  .046      o 

•09      -35    -14 

S  nz6.  8M  o'.'s  194°,  binary 

2212 

-194539.51 

92.8 

—  11.307-.  318 

+  .08 

-.032      o 

.15         .89      .21 

2213 

-Si  37  35-92 

82.5 

—  11.246—  .196 

+  .04 

+  .049+  I 

.13         .8l      .26 

24  G  Velorum 

2214 

-65  i7  55-6S 

80.0 

—  11.269—  .076 

+  .05 

+  .029      o 

•13         -63      -23 

24  G  Volantis 

2215 

—  17  16    2.49 

91.8 

—  11.346-.  322 

+  .08 

-.037+  I 

.15        .82      .21 

22l6 

-32  44  10.83 

75-6 

-11.319-  .279 

+  .05 

—  .004      o 

.IO        .50     .20 

294  G  Puppis  w 

2217 

-36    957-79 

84.7 

-11.338-.  268 

+  .05 

—  .014      o 

.14        .71      .23 

295  G  Puppis  * 

22l8 

+  18  39  11.98 

70.6 

—  11.361—  .408 

+  -I5 

-  .032      o 

.06        .31      .14 

20  Cancri  d  l 

2219 

-3918    8.27 

85-4 

—  11.348-  .256 

+  .05 

—  .009      o 

.13         .69      .21 

297  G  Puppis 

222O 

+  42  19  36.70 

56.8 

-11.357-.  485 

+  .23 

—  .007      o 

.11         .42      .25 

2221 

-12  43  59.68 

75-o 

-i  i.  405  -.334 

+  .08 

-  -045      ° 

.09         .39      .16 

22  Puppis 

2222 

+  26  47  17.40 

79.6 

-11-394-  -430 

+  -I7 

—  •0*5      o 

.09         .34      .14 

2223 

+  1057  15.87 

74-9 

-i  i.  407  -.389 

+  •13 

—  .020      o 

.11         .34      .16 

21  Cancri 

2224 

-  26    i  39.05 

80.2 

-11.385-.  299 

+  .07 

+  .013       o 

.IO         .46      .17 

298  G  Puppis 

2225 

-5739I3-87 

81.4 

-11.427-.  154 

+  .03 

—  .002      o 

.15         .64      .24 

87  G  Cannae 

2226 

—  48  10    9.61 

75-3 

—  11.461—  .216 

+  .04 

—  .002       o 

.13         .67      .27 

26  G  Velorum  B  * 

2227 

-   3  2537-27 

72.1 

-11.499-  .351 

+  .10 

—  .029+    2 

.07         .30      .14 

i  Hydrae 

2228 

—  71  ii  47.01 

81.2 

-i  i.  472  +.023 

+.11 

+  .034+  I 

.15         .63      .24 

2229 

+  17  22  32.61 

64.8 

-11.672-.  399 

+.14 

—  .l6l+    2 

.0)8         .30      .l6 

25  Cancri  d1 

2230 

—  71  ii  12.  16 

83-4 

—  II.48l  +  .O22 

+.11 

+  -039      o 

.15         .64      .23 

8Mfols3!8,  N3s" 

2231 

+  67  37  34-94 

74-7 

—  11.526—  .676 

+.58 

-.003+  I 

.08         .31      .14 

2232 

+  28  13  22.21 

59-8 

-11.657-.  431 

+  .18 

-.131      o 

.12         .49      .27 

22  Cancri  <f>1 

2233 

-59  ii  15.44 

68.6 

—  11.518—  .142 

+  .03 

+  .014      o 

.08         .32      .15 

2234 

+  7  53  25-78 

66.8 

-11.543-.  379 

+  •13 

—  .005      o 

.14         .57      .28 

2235 

-22  4947-32 

95-2 

-i  i.  495  -.306 

+  .07 

+  .044      o 

.14      I.  IS      .22 

2236 

+  45  59  24-76 

77-5 

-i  i.  905-  .495 

+  .26 

—  .361       o 

.09         .47      .l8 

2237 

-   3  34  48.57 

81.4 

-H.57I--352 

+  .10 

-  -025       o 

.04         .25      .08 

30  Monocerotis 

2238 

+  24  51  46.60 

71.9 

-11.637-.  421 

+  •17 

—  .087      o 

.09         .32      .15 

1  24  Cancri  (u1) 

2239 

+  2451  51.33 

83-7 

-11.634-  .421 

+  -I7 

—  .084      o 

.11         .49      .17 

J2  1224.  6"  43° 

2240 

+  27  I539-70 

75-5 

-11-559-  -428 

+  -I7 

—  .008      o 

.08         .30      .13 

1  23  Cancri  <£- 

2241 

+  27  IS  44-H 

72.0 

—  11.560—  .428 

+  -i7 

—  .009      o 

.08         .31      .14 

JS  1223.  5"  216° 

2242 

-23  43  18.26 

79-2 

-i  i.  524-.  303 

+  .07 

+  .028       o 

.IO         .49      .l8 

j  302  G  Puppis 

2243 

-23  43  16.14 

84.9 

-11.552-.  304 

+  .07 

+  .003      o 

.14         .67      .22 

}  South,  41"  87° 

2244 

-76  36  12.68 

79-4 

-11.463  +  .  178 

+  -3i 

+  •"5-  3 

.09         .49      .l8 

2245 

+  12  59    4-52 

69.4 

-i  i.  697  -.390 

+  .14 

-.113      o 

.11         .44      .21 

27  Cancri 

2246 

-   3  39  30-36 

72-3 

-11.648-  .351 

+  .10 

-  -045      o 

.10      .39    .18 

2  Hydras 

2247 

+  61    3    9.21 

70.1 

-11.752-.  589 

+  .42 

—  .114+    2 

.03         .14      .06 

2248 

—  12  12  21.52 

92.0 

—  i  i.  670-.  330 

+  .09 

-.030+  I 

.12         .75      .18 

2249 

-41  49  33.60 

80.4 

—  11.670—  .244 

+  .05 

-.003       o 

.14         .55      .22 

309  G  Puppis 

2250 

—  51  24    i.oi 

90.2 

-11.699-.  197 

+  .04 

—  .010+  I 

,l6      I.O2      .26 

28  G  Velorum  * 

3350     IOM  pr.  iJ8,  S  18". 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR 


Ho. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

H  and  100  A  H. 

Prob.  Errors. 

a  Ep.      loop,     a  10 

M 

h    m         s 

s                 s 

s 

s 

//                   n                „ 

2251 

Br  1198 

6.2 

8  22  41.105 

67.6 

+  3-5646-  .0150 

—  .004 

—  .0020      o 

.IO             .40          .20 

2252 

•q  Volantis 

5-5 

22  58.611 

82.4 

—   0.4991—  .0785 

—  .067 

—  .0065       o 

.14             .70          .24 

2253 

Br  i  200 

6.2 

23      2.563 

68.0 

+  3-3527-  -0098 

—  .002 

—  .0009       o 

.08             .40          .19 

2254 

Pi  81  m 

6.6 

23   26.279 

77-3 

+  3.0295-.  0037 

+  .OOI 

—  .0015       o 

.18             .72          .30 

2255 

0Chamaeleontis 

4.2 

23  38.679 

79-7 

—   1.7221—  .1648 

-•159 

-.0447-    9 

.07              .50          .16 

2256 

Pi  58 

7.6 

23  41-285 

73-2 

+    5.6952—  .I2IO 

—  .024 

—  .0069—    i 

.18             .64          .30 

2257 

L  3336 

6.0 

24      7.180 

83-5 

+    2-3I64+.0022 

+  .003 

—  .0052      o 

.20          1.36          .41 

2258 

ft  Volantis 

3-5 

24  38.964 

82.4 

+    0.6644—  .0266 

—  .Ol8 

—  .0067—   6 

.11             .64         .21 

2259 

L33S9 

5-2 

24  52.022 

85.8 

+    1.6441—  .OO2I 

—  .OOI 

—  .0099—    i 

.l8            .82         .27 

2260 

Pi  78 

6.7 

25    3-340 

71.4 

+    4.5284-  .0516 

-.013 

+  .OO22—     2 

.12           .52         .23 

2261 

Groomb  1418 

7-7 

25  20.80- 

72.4 

+  16.398—2.155- 

—  .079  12 

.07            .40        .17 

2262 

L33S3 

7.0 

25  22.646 

93-5 

+    2.092  I  +  .OOI9 

+  .OO2 

-  .0023       o 

•IS         1-05         -23 

2263 

Br  1201 

6.0 

25  35-791 

7i-5 

+  3-5545-  -0152 

—  .004 

—  .0062       o 

.08           .34        .16 

2264 

Br  1195 

5-4 

25  39.084 

67.2 

+  5.4223-.  1041 

—  .020 

—  .0086—    I 

.09           .33         .16 

2265 

6  Cancri 

5-8 

25  53-704 

56-3 

+  3.4268—  .0119 

-.003 

-.0037       o 

.09           .39         .23 

2266 

L3367 

5-6 

25  55-279 

86.2 

+   i.  8945  +  .0006 

+  .OOI 

—  .0012       o 

.15           .80        .24 

2267 

L  3366  » 

5-4 

26    5.406 

83-2 

+  2.0206+.  0016 

+  .OO2 

—  .0003      o 

.18           .78         .28 

2268 

Groomb  1450 

6.2 

26  25.024 

88.4 

+  3.9124—  .0268 

-.007 

—  .0090—    I 

.05      •  -44       .11 

2269 

L  3356 

5-7 

26  27.926 

94-8 

+    2.  4045  +  .OO2  1 

+  .003 

—  .0021       o 

.16       1.23       .25 

2270 

L33°8 

6-3 

26  29.662 

91.0 

+  i-9577  +  .oou 

+  .OO2 

—  .0041       o 

.15            .80         .21 

2271 

i)  Cancri 

5-7 

26  55.619 

77-o 

+  3.4762-.  0132 

—  .OO2 

—  .0026      o 

.03            .21         .08 

2272 

Br  1204 

6.4 

26  56.923 

83.2 

+  3.8612—  .0249 

-.007 

—  .0116       o 

.11            .45         .16 

2273 

P»  95 

5-6 

27    1.311 

81.6 

+    2.  6964+.  OOO5 

+  .OO2 

—  .0022          0 

.09           .62         .20 

2274 

L  3424 

5-6 

27    2.605 

89-4 

+    O.l626—  .0460 

-.038 

—  .0058+     2 

.20         I.O2         .29 

2275 

Br  1205 

6-5 

27    5-482 

71.6 

+    3-5538-  .0153 

-.003 

—  .0047       o 

.IO            .44         .20 

2276 

Br  1209 

6.7 

27  13-343 

80.  i 

+    3.2685—  .0082 

—  .OOI 

—  .0003       o 

.11             .36         .l6 

2277 

Br  1208 

5-9 

28  18.478 

70.8 

+    3.8666—  .0252 

—  .006 

—  .0023       o 

.12            .52         .24 

2278 

Groomb  1446 

6-5 

2835.712 

80.7 

+    6.7781—  .22l6 

-.003 

—  .0042—   6 

•°5        -39      -13 

2279 

L3386 

6.7 

28  57.247 

86.1 

+    2.  3409  +.002  7 

+.003 

-.0875+     2 

.11        .82      .23 

2280 

PulkM  1360 

5-8 

28  58.174 

93-9 

+  3  -°365  --0038 

+  .OOI 

—  .0022          0 

.12           .75         .17 

2281 

L  3410 

5-9 

29  18.333 

92.6 

+  1.6641—  .0019 

+  .OO2 

-  .00415      ° 

.20         1.22         .29 

2282 

Br  1210 

6.9 

29  34-579 

70.8 

+  3.4545-.  0128 

—  .OO2 

—  .0029      o 

.11            .39         .19 

2283 

L3S37 

5-7 

30  15.696 

79-8 

-  3.3842-.  3450 

—  .441 

—  .0670+18 

.07        .66      .21 

2284 

Br  i  202 

5-8 

30  19.266 

69.7 

+  5.3801-.  1043 

—  .OI4 

—  .0020+  3 

.10        .33      .17 

2285 

Pi  108 

6-3 

3°  32-037 

80.3 

+  3-I933~-oo7o 

.OOO 

—  .0084—    i 

.10        .38      .15 

2286 

Lai  16896 

7-3 

30  32-33° 

90.8 

+  3.1927—  .0070 

.OOO 

—  .0091—    i 

•13        -57      -17 

2287 

Br  1212 

5-8 

30  35.410 

83-4 

+  2.9288—  .0021 

+  .OO2 

—  .0016      o 

.08        .48      .15 

2288 

L  3408 

6.2 

3042.516 

92.1 

+  2.  2668  +  .  0025 

+  .003 

—  .0007       o 

.13            .92          .21 

2289 

Groomb  1458 

6.0 

3°  54-369 

79.1 

+  4.5065-  .0533 

—  .Oil 

—  .0075      o 

.IO            .42          .l6 

2290 

•JT  Ursae  Maj 

4.8 

31  28.592 

66.4 

+  5.2946—  .1000 

-.013 

—  .0074+     2 

.08            .30         .15 

2291 

1,3428 

4-9 

31  40.378 

85.5 

+    1.8333  +  .0002 

+  .001 

—  .0002       o 

.18            .84         .27 

2292 

Br  1213 

6.1 

31  40.560 

62.1 

+    3.  2565-.  0082 

.000 

—  .0018      o 

.11             .50         .26 

2293 

Pi  105 

6-3 

3i  53-I97 

86.2 

+    4.4710—  .0518 

—  .Oil 

—  .0026       o 

-05            -39         -II 

2294 

Br  i2ii 

6-3 

32    4-303 

69.1 

+    3-7587-  -0221 

—  .004 

—  .0013       o 

-13        -45      -23 

2295 

8  Hydra 

4.2 

32  21.769 

75-o 

+    3.1790—  .O066 

.000 

—  .0049      o 

.06        .27      .11 

2296 

Br  1218 

6.8 

32  40.212 

86.2 

+    3.  2534-  .Oo8l 

.000 

—  .0028       o 

.13        .42      .16 

2297 

L  3443 

6.1 

32  52-910 

86.1 

+    1.7923—  .OO02 

+  .OOI 

—  .0008       o 

.14            .69         .22 

2298 

1,3452 

5-5 

32  56.148 

88.8 

+   i  -3943  --0065 

—  .004 

—  .0060       o 

.20            .99         .29 

2299 

L  34Si 

4.8 

32  57-937 

90.1 

+  1.4181—  .0060 

-.003 

+  .0038+  I 

.15            .98         .24 

2300 

Pi  118 

8.0 

8  33  21.601 

80.5 

+  3.4527-.  0131 

—  .002 

—  .0017       o 

.08            .36         .13 

2254  Z  1233.     n«  18"  329°;  Aitken.    ^4-^5  o'?2  60°. 
2266  h  4104.     8"  4"  241°;  9M  19". 


2257  IOM  fols.  i'3,  S  20". 
2267  Dunlop.     7M  4"6  349°. 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


93 


Ho. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'andioo  Afi' 

Prob.  Errors. 
SEp.  100  H.'  Sio 

Remarks. 

2251 

9           t               II 
+  24    28    36.24 

66.6 

//          // 
—  11.761—  .417 

// 

+  -I7 

—  .07  1       o 

a        a        a 
.10      .36    .18 

28  Cancri  (w2) 

2252 

-73    434-64 

79-8 

—  1  1.  692  +  .065 

+  .15 

+  .019+    i 

-II         .57      .20 

2253 

+  143230.87 

68.3 

-11-733-  -392 

+  .14 

—  .018      o 

.07         .33      .16 

29  Cancri 

2254 

—     2    II      8.79 

69.8 

-11.765-.  353 

+  .11 

—  .022       o 

•13      -47    -23 

* 

2255 

-77    942.83 

78.9 

-ii.  736+.  214 

+  •35 

+  .022+    5 

.06      .44    .15 

2256 

+  67  37  48.9° 

67.1 

-11.813-.  666 

+  -58 

-.052+  I 

•J5      -53    -27 

2257 

-3446  57-S2 

78.6 

-ii.  783-.  268 

+  .05 

+  .009+  I 

.19    2.35    .76 

4G  Pyridis* 

2258 

—  65  48  10.97 

80.9 

-11.995-.  072 

+  .06 

-.166+  I 

.09     .51    .17 

2259 

-52  45  26.91 

79-9 

—  11.844—  .187 

+  .04 

.000+   I 

•14     -59    -23 

30  G  Velorum  F 

2260 

+  53  27  12.62 

65-3 

-i  i.  944-  -526 

+  •32 

—  .086      o 

.12      .45    .23 

2261 

+  85  24  29.56 

78-3 

-11.963-1.911 

-.085+  9 

.07      .40    .15 

2262 

-42  15  15.45 

89.7 

—  11.874—  .241 

+  .05 

+  .006      o 

.12'    .69    .18 

31  G  Velorum 

2263 

+  24  25    6.12 

72-3 

-  ii.959-.4ii 

+  -I7 

-.063+  I 

.08      .35    .15 

30  Cancri  «* 

2264 

+  65   20  10.14 

66.9 

-i  i.  963  -.630 

+  •52 

-.063+  I 

.07      .27    .14 

2  Ursa  Maj  A 

2265     +182556.53 

50-7 

-i  1.986-.  396 

+  •15 

—  .069      o 

.07      .30    .19 

2266     -473541.78 

8i-5 

—  11.924—  .217 

+  .04 

-.005       o 

.12         .57      .20 

33  G  Velorum  A  * 

2267     -44  23  25.52 

86.5 

-11.943-  .232 

+  .04 

—  .012       o 

.IS         .79      .24 

34  G  Velorum  * 

2268 

+  382133.73 

84-4 

-12.  129-.  453 

+  .22 

-•175+  I 

.06         .38      .11 

2269 

-31  49  24-5° 

88.0 

—  11.987—  .276 

+  .06 

—  .030      o 

.17    1.16    .31 

7  G  Pyridis 

2270 

-455948.63 

85-6 

-11.974-  .223 

+  .04 

-.015       o 

.12        .55      .18 

35  G  Velorum 

2271 

+  20  46  51.24 

73-6 

—  12.044—  .401 

+  .16 

-  .054      o 

.03        .18     .07 

2272 

+  36  46  32.13 

75-4 

-i  i.  999-  .444 

+  .21 

-.008+  I 

.10      .34    .16 

32  Lyncis 

2273 

—  19  14  22.69 

79.2 

-12.003-.  309 

+  .08 

—  .007      o 

.09         -SO      .18 

9  G  Pyxidis 

2274 

-694539.98 

81.2 

-11.940-  .013 

+  .09 

+.058+  I 

.15         .63      .24 

30  G  Volantis 

2275 

+  2425  29.76 

7i-3 

—  12.066—  .409 

+  .17 

-.065+  I 

.IO         .41      .IQ 

32  Cancri  (o1) 

2276 

+  10  24  17.91 

73-8 

—  I2.O2O—  .376 

+  •13 

—  .010      o 

.10      .31    .15 

34  Cancri 

2277 

+  36  45  4S-48 

68.0 

-12.  136-  .444 

+  .22 

—  .050      o 

.11      .41    .20 

33  Lyncis 

2278 

+  735845.66 

80.8 

—  12.  211—  .782 

+  -93 

-.105      o 

.06    .43  .14 

2279 

-31  10  52.46 

84-4 

-1  1-394-  -256 

+  .06 

+  •737  +  " 

.12        .92      .26 

ii  G  Pyxidis 

2280 

-    i  4837-12 

92.8 

-12.  in-.  347 

+  .11 

+  .O2I         O 

.11        .65      .16 

33  G  Hydra 

2281 

-52  52  19.82 

88.0 

-12.166-.  187 

+  .04 

—  .OIO         0 

.15        .87      .24 

39  G  Velorum  * 

2282 

+  1956    2.33 

68.3 

-12.  192-.  394 

+  .16 

—  .018      o 

.IO        .36     .l8 

35  Cancri 

2283 

-8035  10.60 

82.1 

—  12.006+  .404 

+  -79 

+  .216+  8 

.07        .63      .19 

6  G  Chamaeleontis 

2284 

+  65  21  59.27 

68.1 

—  12.141—  .616 

+  •52 

+  .085      o 

.IO        .26     .15 

3  UrsaeMaj 

2285 

+  6  58    8.04 

73-8 

-12.391-.  362 

+  •13 

-.150+  I 

.09        .29     .14 

V                               M               ft           O 

\  2  124?.    7-3  10    25 

2286 

+  6  58  17.70 

95-7 

-12.389-.  362 

+  -I3 

-.148+  I 

.13      .84    -18 

~+J           t      *J                     */ 

2287 

-   7  38  16.87 

77-3 

-12.  234-.  333 

+  .10 

+  .011          0 

.08      .40    .16 

3  Hydrae 

2288 

-37  16    2.69 

84.8 

—  12.242—  .256 

+  •05 

+  .011          0 

.15      .89    .27 

44  G  Velorum  * 

2289 

+  534458-64 

74.0 

-12.  293-.  514 

+  •33 

—  .026+  I 

•ii      -35    -17 

2290 

+  644038.23 

67.7 

—  12.286—  .603 

+  •5° 

+  .02O+     I 

.06      .27    .13 

2291 

-4935  58-93 

79-2 

—  12.318—  .206 

+  .04 

+  .OO2         O 

.13         .58      .22 

46  G  Velorum  C 

2292 

+  10    o  10.43 

60.  i 

-I2-342-.  369 

+  .14 

—  .022       o 

.11         .43      .24 

36  Cancri  c 

2293 

+  53    3  43-48 

82.8 

—  12.366—  .508 

+  .32 

-  -032       o 

.06         .34      .11 

2294 

+  33    9    3-61 

66.4 

-12.364-  .426 

+  .20 

—  .017      o 

.12        .45      .23 

2295 

+  63    8.93 

73-9 

-12.378-  .359 

+  •13 

—  .011+   I 

.05      .25    .10 

2296 

+  9  55  26.69 

80.8 

-i  2.  397  -.367 

+  .14 

—  .009      o 

.12        .37      .16 

37  Cancri 

2297 

-5037  21.41 

82.1 

—  12.414—  .200 

+  .04 

—  .on      o 

.11        .51      .18 

47  G  Velorum  E 

2298 

-57  52  41.51 

81.0 

-12.399-.  154 

+  -°3 

+  .007+  I 

.15        .6l      .23 

95  G  Carinae  e  * 

2299 

-573947-28 

85.8 

-12.399-.  158 

+  -03 

+  .009      o 

.12        .64     .20 

96  G  Carinae  e  * 

2300 

+  20    i  40.71 

78.0 

-12.455-.  389 

+  .16 

—  .019      o 

.07        .29     .12 

2281  Sellers.     8M  o'.'6  297°. 


2288  Innes.     IOM  2"  42°. 


94 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   1 900 


Ho. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  100  A  |i 

Prob.  Errors. 
aEp.  loop,  aio 

M 

h  m    s 

s      s 

s 

s 

tt     H    n 

2301 

Pi  119 

8.9 

8  33  24-777 

86.2 

+  3.45H-.OI30 

—  .002 

—  .0015   o 

.10    .42   .14 

2302 

a-  Hydrae 

4.6 

33  31-882 

78-3 

+  3.1388-  .0058 

.000 

—  .0012   o 

.09    .38   .15 

2303 

T)  Pyxidis 

5-3 

33  3S-896 

83-4 

+  2.  5627  +  .OOI8 

+  .003 

—  .0010   o 

.12     .62    .20 

2304 

Br  1216 

7.2 

33  42-220 

72-5 

+  3-7527--0222 

—  .004 

—  .0017   o 

.l6     .63    .29 

2305 

Br  1220 

6.9 

33  S8-011 

76.3 

+3-4535-  -0131 

—  .002 

—  .0023   o 

.09     .51    .20 

2306 

Br  1214 

5-6 

34  6.534 

69.7 

+  4.1649—  .0380 

—  .007 

+  .0028+  I 

.11     .45    .21 

2307 

L  3446 

4-i 

34  7-679 

77-2 

+  2.  1084+.  0023 

+  .003 

-  .0013   o 

.14     .8l    .30 

2308 

Br  1222 

6.7 

34  21.348 

69.2 

+  3-4573--°I33 

—  .002 

—  .0027   o 

.09     .46    .21 

2309 

Br  1223 

6.9 

34  26.475 

65-7 

+  3.4569-  -0133 

—  .002 

—  .0023   o 

.11     .52    .26 

2310 

Pi  129 

6.8 

3437-723 

73-2 

+  3.4502-.  0131 

—  .002 

—  .0025   o 

.IO     .50    .21 

2311 

Br  1225 

6-5 

34  42-942 

74-6 

+  3-4478-  -0131 

—  .002 

—  .0022   o 

.11     .54    .22 

2312 

Paris  10648  m 

5-3 

34  45.264 

88.8 

+  2.6271  +  .0017 

+.003 

—  .0169+  2 

.11     .86    .21 

2313 

Br  1226 

7-i 

34  58.841 

73-7 

+  3.4520-  .0132 

—  .002 

—  .0012   o 

.12     .75    .30 

2314 

Br  1227 

7-i 

35  12-197 

78.2 

+  3.4474-  .0131 

—  .001 

—  .0027   o 

.11     .64    .23 

2315 

Br  1229 

5-3 

35  I7-I91 

79-3 

+  2.8428—  .0010 

+  .OO2 

—  .0059   o 

.07     .44    .15 

2316 

L3475 

5-5 

35  32-337 

84.8 

+  1.0726—  .0147 

—  .OIO 

—  .0012—  I 

.18   .88   .29 

2317 

£  Pyxidis 

5-2 

35  33-484 

84-3 

+  2.49OI  +  .OO22 

+  .004 

—  .0007—  I 

.11    .68   .21 

2318 

/J  Pyxidis 

3-9 

36  11.251 

81.2 

+  2.3472  +  .0027 

+  .004 

+  .0004   o 

.11    .46   .17 

2319 

I>3472 

5-7 

36  35-005 

89.9 

+  1.6890—  .0014 

.000 

—  .0036   o 

.20    I.O2    .29 

2320 

L  3463 

5-3 

36  38.961 

88.0 

+  2.2OOI  +  .OO27 

+  .004 

-  .0055   o 

.12   .68   .19 

2321 

Br  1234 

5-i 

37  4-952 

73-i 

+  2.  7835-.  0002 

+.003 

—  .0003   o 

.15   .68   .29 

2322 

L  3476 

5-4 

37  6.491 

86.2 

+  1.7095—  .OOI2 

.000 

—  .0048   o 

.18   .88   .28 

2323 

L3468 

5-6 

37  10.771 

84.6 

+  2.0446+.  002  1 

+  .003 

+  .0006   o 

.18   1.24   .36 

2324 

L  347° 

3-6 

37  18.520 

81.4 

+  1.9901  +  .0018 

+  .003 

—  .0007   o 

.11     -57    .20 

2325 

o  Velorum 

3-5 

37  25-759 

76.6 

+  1.7206—  .0009 

.000 

—  .0018   o 

.12     .51    .21 

2326 

L  3484 

5-8 

-  37  26.072 

88.7 

+  1.7145—  .0010 

.000 

-  .0033   o 

.20     .98    .28 

2327 

•y  Cancri 

4-7 

37  3°-OI6 

72.1 

+  3.4788-  .0143 

—  .002 

-  .0073   o 

.04     .21    .09 

2328 

Br  1232 

5-8 

37  41-766 

70.0 

+  3.3121-.  0097 

—  .001 

+  .0007   o 

.IO     .50    .22 

2329 

L347» 

4.8 

37  56-352 

85-2 

+  1.9650+.  0016 

+  .003 

—  .0028   o 

.20    1.24    .37 

2330 

17  Hydrae 

4-4 

37  59-86i 

64-8 

+  3.  1384-  .0058 

+  .OOI 

—  .0015   o 

.12     .44    .23 

2331 

L  3504 

4.4 

38  24.388 

83-5 

+  1.3277—  .0082 

-.005 

—  .0032   o 

.14   .66   .22 

2332 

L3486 

5-2 

38  32-746 

85-3 

+  2.  0405  +.OO2  2 

+  .003 

—  .0007   o 

.20   1.18   .35 

2333 

Grwjo  633 

8.5 

38  34-527 

73-8 

+  3.9765-  .0334 

—  .004 

-.0241-  5 

.09     .60    .24 

2334 

0  Volantis 

5-3 

38  43-165 

82.2 

+  0.2462—  .0477 

-•043 

+  .0044—  I 

.15     .78    .26 

2335 

Br  1238 

4-7 

38  45-764 

74-9 

+  2.9488—  .O024 

+  .OO2 

+  .0004   o 

.12     .54    .22 

2336 

8  Cancri 

4.1 

39  °-I94 

74-4 

+  3.4154-  .0128 

—  .001 

—  .0012—  I 

.03     .16    .07 

2337 

L  3492 

5-6 

39  2.020 

86.1 

+  1.9370+.  0014 

+  .002 

—  .0047   o 

.20    1.32    .37 

2338 

Br  1233 

6.4 

39  13-405 

83.1 

+  3.6909—  .O2IO 

—  .OO2 

+  .OOO2    O 

.12     .44    .17 

2339 

Br  1237 

5-8 

39  19-435 

83-9 

+  3.2605—  .OO86 

.OOO 

—  .0010   o 

.12     .40    .l6 

2340 

L35°5 

5-8 

39  26.979 

86.4 

+  I.72OO—  .0009 

.000 

-  .0037   o 

.l8     .92    .28 

2341 

L35°7 

5-i 

39  33-372 

87.4 

+  I.72O7—  .OOO9 

.000 

—  .0029   o 

.l8     .94    .28 

2342 

o  Pyxidis 

3-6 

39  34-457 

85.5 

+  2.  4IOO+.  O028 

+  .004 

—  .0009   o 

.07     .44    .13 

2343 

Br  1240 

6-3 

39  43-567 

84.6 

+  3.l8ll-.  0068 

+  .OOI 

+  .0003   o 

.12     .40    .16 

2344 

Pi  137 

6.4 

39  46.222 

75-3 

+  5-4947-.  1226 

+  .OO2 

—  .0004—  I 

.IO     .51    .20 

2345 

Pi  iS9 

8.0 

40  17.300 

82.6 

+  3-0305-  -0038 

+  .OOI 

—  .0019   o 

.18   1.08   .34 

2346 

Pi  1  60 

6.8 

40  17.724 

76.1 

+  3.  03  20-  .0038 

+  .OOI 

—  .0004   o 

.16   .69   .29 

2347 

L35H 

5-2 

4032.468 

93-2 

+  1.8793  +  .0010 

+  .OO2 

+  .0016   o 

.16   .98   .23 

2348 

i  Cancri 

4-2 

40  38.843 

81.4 

+  3-6399-  -OI95 

—  .002 

-  .0015   o 

.04    .27   .09 

2349 

L35o8 

3-9 

40  49-653 

89-9 

+  2.  1435  +  .0028 

+  .004 

—  .0005   o 

.18  .84  .25 

2350 

Groomb  1463 

7.8 

8  40  51.485 

71.4 

+  9.1014—  .5688 

+  •334 

—  .OO72+  2 

.08   .40   .17 

23U0  208. 


<  i  '/s,  binary. 


2316  114125.     ioM8"234°. 


2320    8M4"6o°. 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


95 


No. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3dt 

(i'and  iooA|i 

Prob.  Errors. 
SEp.  100  n'  819 

Remarks. 

2301 

Of               It 

+  195637.07 

78.9 

-12.458--  389 

n 

+  .16 

—  .019      o 

'/         //       it 
.09      .32    .13 

2302 

+  3  41  33.11 

75-2 

-12.467-.  353 

+  .12 

—  .020      o 

.08      .32    .14 

2303 

-25  54  I7-I3 

78.3 

—  12.464—  .287 

+  .08 

—  .012       o 

.10      .41    .16 

(Mali  g) 

2304 

+  33    448.68 

68.3 

-12.506-  .423 

+  .20 

-  .047       o 

.13     .54  .26 

2305 

+  20    7  50.74 

75-8 

-i  2.  493  -.388 

+  .16 

—  .016      o 

.08     .42    .17 

38  Cancri 

2306 

+  46  ii    5.01 

61.4 

—  12.410—  .470 

+  .27 

+  .077      o 

.10      .33    .19 

34  Lyncis 

2307 

—  42  38  21.  16 

78.6 

-12.494-.  235 

+  -05 

—  .006      o 

.10      .47    .18 

48  G  Velorum  e 

2308 

+  2O  21   38.89 

68.2 

-12.526-.  388 

+  .16 

—  .022      o 

.08      .41     .19 

39  Cancri 

23<>9 

+  2O  19  27.62 

64.6 

-12.527-.  388 

+  .16 

—  .017      o 

.09     .46  .23 

40  Cancri 

2310 

+  2O      I   24.67 

66.2 

-12.544-.  387 

+  .16 

—  .022      o 

.IO         .42      .21 

21254.    9M2o"53° 

2311 

+  19  53  54.63 

69.1 

-12.  546-.  387 

+  .16 

—  .018      o 

.09         .40      .19 

41  Cancri  (e) 

2312 

—  22   19  18.47 

9°-3 

—  12.115—  -291 

+  .08 

+  .4I6+     2 

.11    i.or    .23 

* 

2313 

+  20      424.74 

71.0 

-12.558-  .387 

+  .16 

—  .012      o 

.11         .51      .23 

42  Cancri 

+  1956      5.67 

74.0 

-12.578-  .386 

+  .17 

—  .016      o 

.11         .49      .21 

2315 

-12    7  18.58 

76-4 

-12.571-.  317 

+  .10 

-.004+  I 

.07         .41      .l6 

6  Hydrae 

2316 

-62  30      5.78 

82.1 

—  12.613—  .116 

+  .04 

—  .029      o 

.14         .69      .24 

97  G  Carinae  * 

231? 

—  29   12    l8.2O 

79-9 

—  12.682—  .277 

+  .07 

—  .096      o 

.IO         .52      .19 

Mali/ 

2318 

-3457  12.04 

74-8 

—  12.648—  .260 

+  .06 

—  .019      o 

.IO         .44      .l8 

Mali  b 

2319 

-  53    5  IO-°7 

84.2 

-12.637-.  185 

+  .04 

+  .019      o 

.14         .71      .23 

51  G  Velorum 

2320 

-395432-44 

80.3 

-12.672-.  243 

+  .05 

—  .012+   I 

.12        .51      .19 

50  G  Velorum  * 

2321 

-1535    2.40 

72.6 

-12.  788-.  309 

+  .09 

—  .099      o 

.12        .47      .21 

9  Hydrae 

2322 

-5242    0.90 

78.7 

—  12.696—  .187 

+  .04 

—  .005      o 

•13      -59    -23 

54  G  Velorum  * 

2323 

-4450    7.07 

81.0 

—  12.692—  .225 

+  .05 

+  .004      o 

.14    .87  .29 

52  G  Velorum 

2324 

-46  17  34.76 

79.0 

—  12.718—  .219 

+  .05 

-  -013      o 

.09    .45  .17 

53  G  Velorum  6 

2325 

-52  34    0.44 

78.2 

—  I2.7OI—  .188 

+  .04 

+  .OI2         O 

.10      .47    .18 

Cluster 

2326 

-523937-2I 

83-4 

—  12.697—  .187 

+  .04 

+  .016      o 

.15    .67  .23 

55  G  Velorum 

2327 

+  21  4941-23 

70.2 

-12.768-.  386 

+  .17 

-.050+  I 

.04      .20    .09 

2328 

+  13      2   22.2O 

68.3 

-12.735-  .368 

+  .15 

—  .004      o 

.09      .42    .20 

45  Cancri  A1 

2329 

-465736.88 

79.1 

-i2.75i-.2is 

+  .05 

—  .004      o 

.15    .75  .28 

58  G  Velorum  n 

2330 

+  3  45  27-76 

65.8 

-12-753-  -347 

+  -I3 

—  .002      o 

.09      .36    .18 

2331 

-59  24  14.82 

81.6 

-12.785-  .143 

+  .04 

—  .006      o 

.10      .53    .18 

99  G  Carinae  d 

2332 

-45    3    8.64 

80.8 

—  12.796—  .224 

+  .05 

—  .008      o 

.15     .81    .28 

59  G  Velorum 

2333 

+  42    3    4.76 

72.8 

-13-439-  -438 

+  •25 

-.649+  3 

.08        .53      .21 

21263.   9M55"20°* 

2334 

-70    147.12 

82.0 

—  12.842—  .023 

+  .09 

—  .042      o 

.13         .64      .22 

2335 

-   6  52  25.02 

72.9 

-12.806-.  325 

+  .ii 

-.003      o 

.IO        .45      .20 

31  Monocerotis 

2336 

+  18  31  18.81 

67.! 

-13.058-.  377 

+  .16 

-.239      o 

.04         .17      .08 

2337 

-47  44  23.74 

77.1 

—  12.832—  .211 

+  .04 

—  .on      o 

.13         .69      .26 

60  G  Velorum 

2338 

+  31    3  35.44 

74.6 

-1  2.  854-  .408 

+  .20 

—  .020      o 

.11         .34      .16 

46  Cancri  <r  l 

2339 

+  10  26  37.77 

77-7 

—  12.866—  .360 

+  .14 

—  .026      o 

.11         .35      .16 

49  Cancri  b 

2340 

-52  4428.07 

81.8 

-12.833-  .186 

+  .04 

+  .016      o 

.14         .65      .23 

6  1  G  Velorum 

2341 

-5245  17.87 

82.6 

-12.854-.  187 

+  .04 

+  .OO2         0 

.14         .67      .23 

62  G  Velorum 

2342 

-S2  4933-16 

80.5 

—  12.851—  .264 

+  .06 

+  .006      o 

.08         .38      .14 

a  Mali 

2343 

+  62  34.79 

79-8 

-12.871-.  350 

+  •13 

—  .003      o 

.11         .37      .16 

10  Hydrae 

2344 

+  67    4  29.91 

70.4 

—  12.904—  .609 

+  .58 

-  .034      o 

.IO         .40      .19 

2345 

-   2  14  16.53 

83.6 

-12.932-  .332 

+  .12 

—  .027      o 

.l6         .84      .27 

1  2  1270  5"  260° 

2346 

-    2  14  15.55 

65-7 

-12.912-.  333 

+  .12 

—  .006      o 

.12         .41      .22 

I 

2347 

-492739-75 

87.0 

—  12.917—  .204 

+  .04 

+  .005      o 

.12         .59      .18 

63  G  Velorum  D 

2348 

+  29    732.64 

77-8 

—  12.979—  .400 

+  .2O 

-  .050      o 

.04         .22      .08 

2  1  268.    7Mo3i"307° 

2349 

-42  17  13.13 

82.1 

-12.924-.  233 

+  .05 

+  .017      o 

.13         .59      .21 

64  G  Velorum  d 

2350 

+  80  24  12.51 

66.4 

-12.947-1.007 

+  2.  02 

—  .004+  I 

.08         .39      .19 

9*5  fols.  oty,  N.  15" 


3333    P.M.  of  comp.  nearly  zero. 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    1900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  100  A  n 

Prob.  Errors. 
a  Ep.  100  n  a  10 

M 

h  m    s 

S          S 

s 

s 

tt        n      n 

2351 

Paris  10778 

5-9 

8  40  58.157 

97-6 

+  3.  044  1  -.003  9 

+  .OOI 

+  .0018   o 

.12   1.16   .19 

2352 

L  3506 

5-9 

41  0.908 

86.8 

+  2.3093  +  .0030 

+  .004 

—  .0005   o 

.16     .75    .24 

2353 

Br  1242 

6.0 

41  27.158 

64.4 

+  3.  2927-.  0096 

.000 

—  .0050   o 

.11     .40    .22 

2354 

t  Hydrae  m 

3-4 

41  28.872 

71.6 

+  3.1808—  .0071 

+  .OOI 

—  .0127   o 

.03     .15    .06 

2355 

Br  1244 

4-5 

41  39.080 

78.0 

+  2.8357—  .0006 

+  .003 

+  .0017   o 

.12     .46    .19 

2356 

8  Velorum  m 

i-7 

41  56.615 

70.6 

+  1.6584—  .0021 

—  .001 

+  .0028-  I 

.08     .36    .16 

2357 

Pi  167 

5-3 

42  10.888 

86.0 

+  3.0421—  .0040 

+  .OOI 

-.0031   o 

.08   .68   .18 

2358 

L  3526 

3-9 

42  38.229 

81.6 

+  2.  0328+.  OO23 

+.003 

—  .0015   o 

.13     .60    .21 

2359 

L352I 

6-5 

42  So-QS1 

80.2 

+  2.3791  +  .0030 

+  .004 

-  .0033   o 

.16    1.04    .35 

2360 

Brisb  2  200 

5-6 

43  6.388 

86.1 

+  2.0399  +.OO23 

+  .003 

—  .0009   o 

.18   .88   .28 

2361 

p  Hydrae 

4-5 

43  8.218 

65.2 

+  3.1814—  .0069 

+  .OOI 

—  .0010   o 

.IO     .40    .21 

2362 

L3542 

6.0 

43  55-214 

82.8 

+  2.O322  +  .OO23 

+.003 

—  .0031   o 

.18   1.  10   .35 

2363 

L  3SS4 

4.6 

44  7-383 

75-5 

+  I.5542-.  0036 

—  .002 

—  .0006   o 

•15   -92   -35 

2364 

Br  1245 

6-5 

44  I9-570 

84.0 

+  3-7374-  -0237 

—  .002 

-.0057   o 

.11    .48   .17 

2365 

Br  1249 

5-3 

44  20.250 

68.4 

+  3.0169—  .0036 

+  .OO2 

—  .0014   o 

.11     .40    .20 

2366 

jyChamaeleontis 

5-7 

44  43-645 

77-8 

-1.9313-.  2217 

-.293 

—  .0151—  I 

.12     .57    .22 

2367 

Br  1241 

5-9 

45  8.337 

74.1 

+  4.9867  -.0897 

+  .OOI 

—  .0014+  I 

.06     .26    .11 

2368 

Br  1247 

5-3 

45  14-3" 

63.2 

+  4.0452-.  0361 

-.003 

+  .0001   o 

.10   .44   .23 

2369 

Br  1250 

6-5 

45  27-333 

79.0 

+  3.3468-.  OUT 

.000 

—  .0079+  I 

.O?     .32    .12 

2370 

Br  1251 

7-6 

45  34-963 

72.8 

+  3-3647-  -OII6 

.000 

—  .0022   o 

.12     .51    .22 

2371 

L-3549 

5-3 

45  47-7I3 

83-4 

+  2.4368  +  .0030 

+  .004 

+  .0004   o 

.16     .78    .26 

2372 

Pi  188 

6.2 

45  50-691 

80.6 

+  2-5I29+.OO26 

+  .004 

—  .0022   o 

.13     .57    .21 

2373 

L  3556 

5-6 

45  55-749 

88.4 

+  2.-2323  +  .0032 

+  .004 

—  .0015   o 

.l6     .80    .24 

2374 

L  3557 

6.6 

46  5-875 

87.2 

+  2.  2606+.  0033 

+  .004 

—  .0081   o 

.12     .64    .19 

2375 

y  Pyxidis 

4.2 

46  17.258 

84.9 

+  2.  5451  +  .0025 

+  .004 

—  .0103   o 

.11     .64    .19 

2376 

L  3565 

5-o 

46  20.118 

85-5 

+  2.07  43  +  .0028 

+  .004 

—  .0006   o 

.16     .87    .27 

2377 

Br  1252 

5-9 

46  24.039 

82.0 

+  3.  7170-  .0230 

—  .002 

—  .0006   o 

.IO     .45    .16 

2378 

Br  1253 

6-5 

46  27.887 

74.8 

+  3.6167-.  0195 

—  .001 

—  .0012   o 

.IO     .36    .16 

2379 

L  3644 

6-3 

46  37.629 

82.4 

—  1.9404—  .2262 

-.307 

—  .0140+  I 

.15     .69    .24 

2380 

Br  1254 

6.2 

46  38.544 

64.0 

+  3.  5828-  .0196 

—  .001 

-  .0365   o 

.09     .32    .17 

2381 

Br  1256 

5-7 

46  39.565 

83.2 

+  2.9502—  .0024 

+  .O02 

—  .0030   o 

.08     .56    .17 

2382 

L3572 

5-2 

47  9-912 

83.6 

+  2.0337  +  .0025 

+  .004 

—  .0012   o 

.18    I.  O2    .32 

2383 

Br  1246 

6.0 

48  3.269 

68.3 

+  5.1966—  .1080 

+  .009 

-.0039-  2 

.08     .39    .18 

2384 

Br  1255  m 

5-6 

48  8.689 

80.8 

+  3.6708—  .0216 

—  .001 

+  .0030   o 

.06     .33    .11 

2385 

Abo  181 

7.6 

48  11.072 

70.6 

+  5.2931-.  1151 

+  .OII 

+  .0014—  I 

.14   .66   .29 

2386 

L3577 

6.8 

48  13-348 

91.2 

+  2.2203  +  .0034 

+  .004 

—  .0012   o 

.13     .96    .22 

2387 

L3s8o 

5-8 

48  58.818 

87.4 

+  2.  2854+.  0035 

+  .004 

-  .0043   o 

,l6     .96    .27 

2388 

L-3594 

5-8 

49  3-537 

84.9 

+  1.5328—  .OO40 

—  .001 

—  .0015   o 

.18     .84    .28 

2389 

L  3609 

5-5 

49  13-796 

85-9 

+  O.82O6—  .0246 

—  .022 

+  .0127+  5 

.13     .82    .24 

2390 

L  3669 

5-9 

49  35.839 

90-5 

—  2.0897—  .2476 

-.357 

-.0204+  5 

.14     .98    .24 

2391 

Br  1258 

5-5 

49  40.372 

72.1 

+  3.6030-  .0195 

—  .001 

—  .0008   o 

.10   .30   .15 

2392 

Pi  202 

6.1 

So  3-924 

59-8 

+  4.0825-  .0398 

—  .002 

—  .0105   o 

.14   .52  .30 

2393 

£  Hydrae 

3-2 

50  6.502 

81.1 

+  3.1746—  .0070 

+  .OOI 

—  .0069   o 

.04   .24   .08 

2394 

Br  1262 

5-8 

50  28.008 

55-i 

+  3.2813—  .0096 

+  .OOI 

—  .0002   o 

.11   .36  .23 

2395 

L-3596 

5-4 

50  29.278 

86.2 

+  2.OIIO+.OO25 

+  .004 

—  .0016   o 

.14     .69    .21 

2396 

Br  1264'  N* 

7-2 

50  35-522 

74-3 

+  2.9417—  .0021 

+.003 

+  .0003   o 

.15   .66   .28 

2397 

Br  1264  2  S* 

6.9 

5035.552 

67.6 

+  2.9419—  .0021 

+  .003 

+  .0005   o 

.12     .52    .26 

2398 

Br  1259 

5-7 

50  46.436 

76.2 

+  3.  7130-  .0238 

—  .001 

—  .0045   o 

.11     .50    .20 

2399 

8  Pyxidis 

5-° 

51  14.178 

81.5 

+  2.57I2  +  .0025 

+  .004 

+  .0048   o 

.11     .64    .22 

2400 

Br  1265 

5-3 

8  51  40.358 

73-i 

+  3.35I7-.OU5 

.000 

+  .0041   o 

.12     .45    .21 

23S4  2  1273.    3lylo-4*ll4  <  o'/5,  binary,  15  yrs.  ± ;  also,  8M  3"  233° 


2381  $  587.     7«7  o'/8  143°,  slow. 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


97 


Ho. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

i/and  too  Ap.' 

Prob.  Errors. 
SEp.  loop.'  Sio 

Remarks. 

235i 

-    i  41     7.86 

95-6 

//                      // 

-12.906-.  333 

// 

+  .12 

it 
+  -°45       o 

rr                tl            It 
.11           .89       .17 

2352 

-3647     2.37 

88.8 

—  12.956—  .251 

+  .06 

—  .002       o 

.15      .86    .24 

27  G  Pyxidis 

2353 

+  12   28  36.78 

60.7 

-13.048-.  360 

+  .14 

-.065+   i 

.10      .42    .23 

50  Cancri  A2 

2354 

+     647      8.64 

70.9 

-13.038-.  346 

+  •13 

-.054+   i 

.03      .15    .06 

2                      A 
1273  * 

2355 

-13    1055.54 

77.0 

-13.016-.  309 

+  .09 

—  .019      o 

.10      .42    .17 

12  Hydrae 

2356 

-54  20  31.84 

73-9 

-13.  109-.  179 

+  .04 

-  -093       o 

.07      .34    .14 

Innes.    5*2  2"  174° 

23S7 

-     I  31  50-35 

81.4 

-  13-037-  -331 

+  .12 

—  .006      o 

.08      .51    .17 

6  1  G  Hydras 

2358 

-45  4032.81 

79-9 

-13.075-.  219 

+  .0S 

-.013      o 

.10      .50    .18 

66  G  Velorum  a 

2359 

-34  15  22-52 

73-2 

-13.068-  .257 

+  .06 

+  .008      o 

.15    1.04    .41 

29  G  Hydrae 

2360 

-45  3^2  45.04 

83-3 

—  13.126—  .220 

+  .0S 

-  -033      o 

.14      .71    .24 

L  (3530)  68  G  Velorum 

2361 

+  6  12  25.80 

62.5 

-13.  132-.  345 

+  •13 

-.037       o 

.10      .36    .20 

Clark  I2M  12"  146° 

2362 

-45  47  H-oo 

82.2 

-13.  157-.  218 

+  .0S 

—  .010         0 

.14      .94    .30 

69  G  Velorum 

2363 

-5624    7.81 

74.1 

—  13.161—  .165 

+  .04 

—  .001      o 

.13      .71    .29 

103  G  Carinae/ 

2364 

+  33  39  32-°8 

76-3 

-13.  261-.  404 

+  .21 

-.088+  I 

.10      .36    .16 

2365 

-   3    4  18.92 

71.2 

-13.  198-.  326 

+  .12 

—  .024      o 

.09      .40    .18 

67  G  Hydrae 

2366 

-7836    i.  08 

76-7 

-13.  167  +  .  219 

+  -45 

+  .033+     2 

.10      .49    .19 

2367 

+  62  20  11.19- 

71.7 

-13.  208-.  540 

+.46 

+  .019      o 

.06         .21      .IO 

5  Ursae  Maj  b 

2368 

+  44'  5  55-83 

55-7 

~I3-I97--437 

+.26 

+  .037       o 

.10         .36      .22 

35  Lyncis 

2369 

+  J5  43  17-34 

74.1 

-13.180-.  360 

+•15 

+.068+  I 

.07         .28      .12 

54  Cancri 

2370 

+  l6  22   2O.O3 

69.4 

-13.  246-.  362 

+  .16 

+  .OIO         0 

.12         .45      .22 

52  Cancri 

2371 

-32   24  25.24 

76.0 

-I3-323~-26i 

+  .07 

-  -053      o 

.15         .65      .27 

33  G  Pyxidis 

2372 

-29    5  26.50 

79-7 

—  13.270—  .269 

+  .07 

+  .003      o 

.11         .46      .l8 

34  G  Pyxidis 

2373 

-395652.38 

85.6 

-13.300-  .238 

+  .05 

—  .02  1       o 

.14         .67      .22 

74  G  Velorum 

2374 

—  38  46  12.64 

85.8 

—  13.264—  .240 

+  .05 

+  .026+   I 

.14         .69      .22 

75  G  Velorum 

2375 

—  27  20  20.37 

82.8 

-13.221-.  271 

+  .08 

+.081+  I 

.IO         .47      .l6 

(Mali  c) 

2376 

-4456    8.24 

80.7 

—  13.298—  .220 

+  •05 

+  .007       o 

.13         .64      .23 

76  G  Velorum  g 

2377 

+  32  50  56.02 

75-2 

-13.302-.  399 

+  .21 

+  .008      o 

•09     -35    -15 

51  Cancri 

2378 

+  2838    4.14 

72.8 

-I3-329--388 

+  .2O 

—  .015       o 

.09         .34      .15 

53  Cancri  (p1) 

2379 

-78  42  13.24 

79.2 

—  13.  278  +  .  219 

+  •45 

+  .046+     2 

.12         .53      .20 

9  G  Chamaeleontis 

2380 

+  28  42  45.98 

59-i 

-i3-57i--38i 

+  .20 

-.245+   4 

.08         .29      .17 

55  Cancri  (p1  or  p2) 

2381 

-   6  48    9.30 

75-o 

-I3-329~-3I5 

+  .ii 

-.003       o 

.08         .41      .17 

15  Hydrae  * 

2382 

—  46    9  18.70 

77-6 

-13.380-  .215 

+  .05 

—  .020         0 

.14         .69      .26 

78  G  Velorum/* 

2383 

+  6459  11.71 

65-6 

-i3-5°3-  -557 

+  .52 

—  .085       o 

.07         .27      .14 

6  Ursae  Maj 

2384 

+  3057  29.19. 

75-9 

-  13-456-  -392 

+  .21 

-  -033       ° 

.06         .28      .11 

57  Cancri  <r2  * 

2385 

+  65  54  23.70 

66.7 

-13.458-  .568 

+  •55 

-  .032      o 

.11         .52      .25 

2386 

-403637.57 

88.5 

-  13-435-  -234 

+  .05 

—  .007       o 

.11         .69      .l8 

79  G  Velorum 

2387 

-38  2048.28 

83-5 

-13.462-.  240 

+  .06 

+  .016      o 

-14      -69    -23 

8  1  G  Velorum 

2388 

-57  15  25-7i 

80.7 

-13.462-.  159 

+  .04 

+  .O2  1         O 

.14      .64    .23 

104  G  Carinae 

2389 

—  66  25  10.81 

85-3 

-13.404-  .084 

+  •05 

+  .090—   I 

.11         .73      .21 

43  G  Volantis 

2390 

-79    8    3.44 

86.2 

-I3-430+.233 

+  .50 

+  .088+     2 

.11      .64    .19 

1  1  G  Chamaeleontis 

2391 

+  281833.41 

70.8 

-13.561-.  382 

+  .20 

-  .039       o 

.09    .31  .15 

58  Cancri  (p1  or  p") 

2392 

+  46    054.78 

56-4 

-13.594-  .432 

+  .28 

—  .046+   I 

.14    .51  .31 

2393 

+  6  19  34.22 

81.1 

-I3-54I--  335 

+  .14 

+  .009+  I 

.04      .24    .08 

2394 

+  12     O  29.21 

54-i 

-13-595-  -346 

+  •15 

—  .021       o 

.08         .33      .20 

60  Cancri 

2395 

-47    8  24.80 

83.0 

—  13.617—  .210 

+  .05 

—  .042       o 

.11         .52      .l8 

84  G  Velorum 

2396 

-   7  35  I5-36 

75-4 

—  13.622—  .310 

+  .ii 

—  .040      o 

.11         .63      .24 

15  1295.    4"  359° 

2397 

-   7  35  20.10 

64.9 

-I3.6l6-.  310 

+  -ii 

-  -034      o 

•09      -37    -19 

J  1  7  Hydrae 

2398 

+  33  17  42.59 

69.9 

-13.674-.  392 

+  .22 

-  .081       o 

.10         .43      .20 

59  Cancri 

2399 

-27  17  49.26 

79.0 

-13-733-  -27° 

+  .08 

—  .110         0 

.10      .46    .17 

2400 

+  15  42  22.48 

65.7 

-13.634-  .352 

+  .16 

+  .017       o 

.11         .40      .21 

62  Cancri  o1 

2382     10"  3"  84°. 


2384  2  1291.     6"jli-6"fl6  i '.'4  326°,  very  slow. 


PRELIMINARY   GENERAL   CATALOGUE  OF   STARS   FOR   1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H-  and  100  A  \L 

Prob.  Errors. 

aEp.      100  (x     aio 

M 

h    m          s 

S                        S 

s 

s 

"              "        I  " 

2401 

Br  1263 

6-S 

8  51  54.298 

73-1 

+  3-6563-  -0215 

.000 

+  -0053      o 

.12            .46        .21 

2402 

Br  1266 

5-9 

52    0.170 

65-9 

+  3-3562—  .0116 

.000 

+  .0042      o 

.11             .44         .22 

2403 

L  3614 

5-9 

52  21.571 

92.7 

+  1.7036—  .0012 

.000 

+  .0036—    I 

.20         I.l8         .28 

2404 

i  Ursae  Maj 

3-i 

52  21.819 

69.6 

+4.1291-.  0445 

—  .001 

-.0438+  I 

.03            .14         .06 

2405 

L  3605 

7.2 

52  26.676 

93-1 

+  2.3260+.  0035 

+  .005 

—  .0181—    I 

.13            .99         .21 

2406 

L  3626 

3-9 

52  46.874 

86.7 

+  1.3634-  .0077 

-.005 

-.0034+  I 

.13            .90         .25 

2407 

a  Cancri 

4-4 

53    1-142 

75-5 

+  3.2861—  .0098 

+  .OOI 

+  .0025       o 

.03            .l6         .06 

2408 

L  3620 

4-7 

53  18-165 

87.0 

+  1.8  1  23  +  .0007 

+  .OO2 

—  .0003      o 

.20        .86      .28 

2409 

Br  1267 

5-6 

53  24-295 

71.2 

+  3-6955-  -0235 

—  .OOI 

-.0033      o 

.13        .69      .30 

2410 

Pi  224 

6.7 

53  31-957 

75-3 

+  3-3949-  -0132 

.OOO 

—  .00.29       o 

-13        -54      -23 

2411 

p  Ursae  Maj 

S-i 

53  32.001 

81.3 

+  5.4762-.  1359 

+  .027 

—  .0026+   I 

.06        .33      .11 

2412 

Pi  227 

6.2 

54    2.331 

87.1 

+  2.8i59  +  .ooo5 

+  .004 

+  .0169+   I 

.08        .68      .18 

2413 

Br  1268 

4.0 

54    9-044 

76-3 

+  3-9II4--°343 

—  .OOI 

-  .0388      o 

.04        .20      .08 

2414 

L  3639 

5-3 

54  31.636 

72-7 

+  1.4708-  .0054 

-.003 

—  .0016      o 

.10        .44      .19 

2415 

Radcl  2218 

6-5 

5432-25- 

79.1 

+  I3.283--I.669- 

+  .OIO-  +    2 

.06        .42      .15 

2416 

1,3628 

6.0 

54  36.489 

81.3 

+  1.9888  +  .0026 

+  .004 

—  .0026      o 

.16         I.O2         .34 

2417 

Br  1270 

6.1 

55  16.271 

73-5 

+  3.6897  -.0235 

—  .OOI 

—  .0004      o 

.09           .34         .16 

2418 

L  3635 

5-3 

55  28.534 

83-8 

+  2.0330+.  0030 

+  .004 

—  .0116      o 

.20      1.06      .34 

2419 

Br  1273 

6-3 

55  51-258 

66.8 

+  3.5858-  .0198 

.000 

—  .0044       o 

.15        .54      .28 

2420 

Br  1274 

7-5 

56    6.937 

82.5 

+  3-373°-  -OI26 

+  .00  1 

—  .0018      o 

.12            .39         .16 

2421 

1-3638 

4-3 

56  21.405 

84.2 

+  2.2367  +  .0040 

+.005 

—  .0052      o 

.12            .57          .19 

2422 

L  3631 

7-3 

56  28.388 

87-3 

+  2.  6493  +.OO2  2 

+  .004 

—  .0006       o 

-13        -94      -25 

2423 

Groomb  1501 

5-9 

56  40-955 

87.2 

+  4.4255-.  0604 

+  .003 

+  .0004       o 

.06        .40      .11 

2424 

K  Ursae  Maj 

3-6 

56  48-039 

77-8 

+  4.1169-  .0435 

.000 

—  .0030      o 

.03        .19      .07 

2425 

PulkM  1436 

6.0 

56  Si-473 

94-6 

+  3.0677-.  0045 

+.003 

—  .0031       o 

.11        .70      .15 

2426 

v  Cancri 

5-6 

56  53-566 

66.2 

+  3.5158-  .0172 

.000 

.0000       o 

.09           .44        .21 

2427 

L  3661 

5-2 

56  56-981 

75-2 

+  1.4738-  .0044 

—  .002 

—  .0236+     2 

.11             .50         .21 

2428 

L  3651 

5-7 

57  37-979 

89.0 

+  2.  2244+.  OO40 

+  .005 

—  .0041       o 

.20            .94         .28 

2429 

Br  1278 

6.8 

58  12.361 

80.7 

+  3.5849—  .0199 

+  .OOI 

—  .0001       o 

.11             .36         .l6 

2430 

Abo  185 

7.0 

58  16.693 

77-3 

+  4.2458-  .0513 

+  .OO2 

—  .0116      o 

.11             .60         .22 

2431 

L3673 

6.0 

58  27.643 

90.6 

+  1.3843  -.0076 

-.005 

—  .0017      o 

.20         I.O4         .28 

2432 

Groomb  1508 

5-8 

S8  30-213 

88.1 

+  4.1631—  .0463 

+  .OOI 

-•-.0007       o 

.13            .48         .17 

2433 

L3667 

5-5 

5838-221 

81.3 

+  1.8626  +.0016 

+  .003 

-r-   .0019              O 

.18        .88      .31 

2434 

Br  1271 

5-5 

59  37-102 

76.8 

+  5.3294-.  1302 

+•033 

-•  .0030—   I 

-o?        -33      -13 

2435 

1,3694 

6.0 

8  59  59.998 

91.7 

+  0.6984—  .0326 

-.031 

—  .0005       o 

.18      1.16      .28 

2436 

Br  1281 

8-3 

9    o    8.856 

80.2 

+  3-3740-  .0129 

+  .OOI 

—  .0014       o 

.09        .36      .14 

2437 

Pi  245 

4.8 

o  10.203 

77-4 

+  3.8300-  .0304 

+  .00  1 

—  .0030      o 

.08        .32      .13 

2438 

L  3677 

3-5 

o  42.296 

76.5 

+  2.0658+.  0035 

+.005 

-.0068-  I 

.12           .62         .24 

2439 

<»  Hydrae 

5-5 

042.533 

57-2 

+  3.1615—  .O068 

+  .002 

—  .0014       o 

.14           .39        .25 

2440 

a  Volantis 

4.1 

o  52.100 

77-3 

+  0.9559-  .0223 

—  .019 

-.0023-   3 

.10           .54        .21 

2441 

Br  1276 

S-o 

1  35-955 

73-o 

+  5.34I5-  -1333 

+  •037 

—  .0009—     2 

.04            .21          .09 

2442 

Dpt  1079 

7-3 

i  4i.i53 

74-3 

+  3.4662—  .0164 

+  .OOI 

—  .0117      o 

.16            .70         .30 

2443 

Br  1280 

4-5 

i  49-I74 

78-5 

+  4.2588-  .0535 

+  .003 

-.0138+  I 

.08            .28         .12 

2444 

T  Cancri 

5-7 

i  59-944 

66.7 

+  3.6124-  .0215 

+  .001 

—  .0020      o 

.14            -58         .29 

2445 

K  Cancri 

5-3 

2  19.907 

75-5 

+  3.2541  -.0094 

+  .OO2 

—  .0013      o 

.03            .20         .08 

2446 

r  Ursae  Maj 

4.8 

2  40.696 

68.4 

+  4.9958-.  1040 

+  .023 

+  .0154-   4 

.09            .34         .17 

2447 

Br  1286 

6-3 

2  54-447 

67.6 

+  3-5399-  -0195 

+  .OOI 

—  .0087—     2 

•09        -33      -i7 

2448 

Br  1290 

7-7 

3  25-974 

78.8 

+  3.3692-.  0130 

+  .OOI 

-  -0033       o 

.12            .36         .l6 

2449 

£  Cancri 

5-3 

3  36-660 

66.5 

+  3-4569-  -OI59 

+  .OOI 

+  .0003      o 

•06            .32          .15 

2450 

K  Pyxidis 

4.9 

9    3  39-487 

78.1 

+  2.  6326  +  .  0028 

+  .005 

+  .0029      o 

.IO            .52         .20 

2401  Hough  252.     ^j-J 
2414  7M  fols.  5^3,  N  n". 


o'/3- 


2417  S  1298.    8M  5"  137°. 
3433  h  4165. 


7M  i"  102°,  very  slow. 


CATALOGUE  OF  6l88  STARS  FOR  1 900 


99 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.'  and  ioo  AH' 

Prob.  Errors. 
SEp.  too  n'  Sio 

Remarks. 

2401 

0             /                 // 

+3037  4.15 

64-5 

tf                       tl 

-13.654-    .385 

M 

+  .21 

// 

+  .OI2—     I 

//         //       it 

.12        .40     .22 

61  Cancri  o-8  * 

2402 

+  1557  55-10 

61.6 

-13.650-   .352 

+  .16 

+  .O22          O 

.10         .40      .22 

63  Cancri  o2 

2403 

-543449.52 

91.2 

-13-793-   -176 

+  .04 

—  .098      o 

.17      1.05      .26 

87  G  Velorum 

2404 

+  48  26    3.76 

66.4 

-13-944-   -429 

+  .30 

-.249+  5 

.03         .13      .06 

OS  196.     9M8"S359° 

2405 

-3644  18.07 

92.4 

-13.714-   .240 

+  .06 

—  .OI4+    2 

.15      .88    .22 

2406 

-60  15  44.94 

81.8 

-13.665-    .139 

+  .04 

+  •057      o 

.IO        .56     .19 

108  G  Cannae  c 

2407 

+  12  (4  4I.6l 

73-8 

-I3-776-   -343 

+  •15 

-  -039      ° 

.03         .18     .07 

2408 

—  52  20  21.  16 

79-3 

-13.766-   .186 

+  .04 

—  .on      o 

.14        .58     .23 

88  G  Velorum  H 

2409 

+  32  48  25.41 

56.6 

-13.810-   .385 

+  .22 

—  .048       o 

.12        .54      .31 

64  Cancri 

2410 

+  18  31  26.62 

72.4 

-13.849-   .354 

+  -I7 

-.079      o 

.12        .51      .23 

2411 

+  68    i    9.87 

75-6 

-13-755-   -574 

+  .61 

+  .015      o 

.05      .24    .10 

2412 

-  15  45    4.48 

81.7 

-13.587-   .294 

+  .10 

+  .215-     2 

.09        .58      .19 

88  G  Hydrae 

2413 

+  42  10  43.66 

73-o 

—  14.070—   .404 

+  .26 

—  .261+   4 

.05        .22      .09 

io  Ursae  Maj 

2414 

-585035-55 

74.2 

-13.831-   .149 

+  .04 

+  .002      o 

.08        .40     .17 

109  G  Carinae  b1* 

2415 

+  84  34  58-63 

85.2 

-13.815-1.397 

+  .019—   I 

.09        .51      .16 

2416 

-48  n    9.77 

79-o 

-13.864-   .203 

+  .05 

—  .026      o 

.13        .77      .27 

89  G  Velorum 

2417 

+  32  38  34-96 

70-5 

-13.885-   .382 

+  .22 

—  .005      o 

.08        .30     .14 

66  Cancri  * 

2418 

—  46  50  50.82 

79-4 

-13.851-   .207 

+  .05 

+  .042+  I 

.14        .65      .24 

90  G  Velorum 

2419 

+  28  17  47.31 

61.8 

-14.004-   .370 

+  .2O 

-  .088       o 

.13        .51      .28 

67  Cancri 

2420 

+  17  28  23.68 

77.2 

-13.950-   .347 

+  •17 

—  .017      o 

.11         .35      .16 

68  Cancri 

2421 

-4051  51.87 

79.0 

-13.915-   .228 

+  .06 

+•033+  I 

.12         .51      .20 

91  G  Velorum  w 

2422 

-2345  45-1° 

87.9 

-13-963-   -271 

+  .09 

—  .008      o 

.13    1.  10    .28 

45  G  Pyxidis 

2423 

+  54  40  40.99 

80.8 

-13.971-   .457 

+  .36 

—  .002          0 

.07         .40      .14 

2424 

+  47  33    7-Si 

74.1 

—  14.042—   .424 

+  -30 

—  .066      o 

.03         .15      .06 

2425 

-   o    5  30.81 

92-3 

-13.901-   .314 

+  •13 

+  .079      o 

.10      .53    .14 

2426 

+  245047.44 

70.2 

-13.987-   .361 

+  .I9 

—  .005      o 

.08         .37      .17 

2427 

-5842    3-27 

75-o 

-13.715-   .145 

+  .04 

+  .270+    2 

.09         .43      .17 

no  G  Carinae  6s 

2428 

—  41  28  18.31 

84.7 

-14.030-   .225 

+  .06 

—  .002      o 

•IS         -71      -23 

93  G  Velorum 

2429 

+  281738.55 

76-5 

-14.072-   .366 

+  .2O 

-.008      o 

•io      -33    ^5 

70  Cancri 

2430 

+  51  13  20.60 

74-3 

-14.143-   .434 

+  .32 

-.075+  I 

.09      .46    .19 

2431 

-6034  15.40 

78-5 

-14.089-  .137 

+  .04 

—  .009      o 

•14     -57    -23 

in  G  Carinae 

2432 

+  48  55  40.07 

85.0 

—  14.102—   .426 

+  •30 

—  .020      o 

.14     .42    .18 

2433 

-51  47  41.85 

74-8 

—  14.078—   .187 

+  -OS 

+  .013       o 

.14     .61    .26 

94  G  Velorum  * 

2434 

+  67  16  29.34 

74-3 

-14.199-   .544 

+  •59 

-  .047       o 

.06      .27    .11 

1  1  Ursae  Maj  o-  * 

2435 

—  68  17  21.03 

89.1 

—  14.184—   .066 

+  .06 

—  .009       o 

.14     .92    .24 

45  G  Volantis 

2436 

+  17  47  20.72 

75-9 

-14.195-   .342 

+  •17 

—  .on      o 

.08     .31    .13 

71  Cancri 

2437 

+  38  51    7.01 

72.6 

—  14.212—   .388 

+  •25 

—  .025      o 

.07"       .28      .12 

2438 

-4641  58-75 

73-° 

-I4-243-   -206 

+  .05 

—  .024+  I 

.IO        .46     .20 

97  G  Velorum  c 

2439 

+  5  29  31.20 

57-7 

-14.222-   .319 

+  .14 

-.003       o 

.13        .49     .29 

2440 

-  65  59  48.68 

76.6 

-14.331-   .092 

+  .05 

—  .102       o 

.09        .46     .18 

2441 

+  67  32  26.09 

69.7 

-14-344-   -541 

+  .60 

—  .070      o 

.04      .23    .10 

13  Ursae  Maj  a1  * 

2442 

+  23  22   56.OO 

63.6 

-14-279-   .347 

+  .19 

.000+   I 

.12         .46      .24 

2  1311.   71*7  f  200° 

2443 

+  52    o  29.98 

64.2 

-14.327-   .428 

+  •33 

—  .040+   I 

.09         .25      .15 

15  Ursae  Maj  / 

2444 

+  30    3  22.69 

60.8 

-I4-307-   -363 

+  .21 

—  .009      o 

.11         .44      .24 

2445 

+  11      4I4-54 

73-9 

-14.330-   .326 

+  •15 

—  .Oil          0 

.04         .l8      .07 

2446 

+  63  55  13.48 

69.8 

-14.409-   .505 

+  .S0 

—  .069—     2 

.07         .30      .14 

2447 

+  27    234-33 

62.2 

-14.741-   .353 

+  .2O 

-.387+  I 

.08         .33      .18 

75  Cancri 

2448 

+  17  52  29.16 

74-5 

-14.428-   .336 

+  -I7 

—  .042       o 

.11         .34      .16 

78  Cancri 

2449 

+  22   26  59.63 

61.0 

-14.404-   .345 

+  .18 

—  .007       o 

.05        .23      .12 

2450 

-25   27    17.96 

79.6 

—  14.408—   .261 

+  .09 

—  .008      o 

.10      .45    .17 

3441  S  1306.    Si's  l"  200°»  s'ow  binary. 


IOO 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.  and  100  A  (i 

Prob.  Errors. 
aEp.     ioo(i     aio 

• 

h    m         s 

s               s 

S 

s 

//            //          n 

2451 

Br  1292 

5-6 

9    3  48.529 

82.6 

+  2.9369—  .0018 

+  .003 

—  .0018      o 

.08         .42       .14 

2452 

A.  Velorum 

1.8 

4  19.072 

71.4 

+  2.  2046  +.OO45 

+  .005 

—  .0024      o 

•08         .33       .15 

2453 

Paris  11266 

6.0 

4  23.785 

96.0 

+  2.8765—  .OO06 

+  .003 

+  .0003       o 

.14         1.02         .20 

2454 

Lai  18091 

6.0 

4  27.331 

99.1 

+  2.  7699+.  001  1 

+  .004 

—  .0028       o 

.12            .75         .14 

2455 

Br  1291 

6-3 

4  36-238 

65-4 

+  3.4546-  .0159 

+  .OOI 

+  .0006      o 

.10        .46      .23 

2456 

Br  1294 

5-8 

442.150 

72.6 

+  2-9339-  -0017 

+  .003 

—  .0021       o 

.14           .48        .23 

2457 

L  373° 

4.8 

4  49-5°9 

91.0 

+0.5111-.  0433 

-.044 

—  .0012      o 

.20         1.05         .28 

2458 

L-3736 

4-4 

4  52-943 

80.0 

+0.1868-  .0625 

—  .070 

-.0055-     2 

.13            .63         .22 

2459 

PiS 

7.2 

5  22.293 

83.0 

+  2.6334+.  0029 

+  .005 

—  .0009       o 

.14           .70        .23 

2460 

f  Pyxidis 

5-7 

5  42-096 

75-5 

+  2.5413  +.0037 

+  .005 

—  .0001       o 

.IO           .51         .20 

2461 

Groomb  1517 

6.1 

5  5°-40o 

78.3 

+6.1352-.  2235 

+.119 

-.0175      o 

.09           .54        .19 

2462 

Br  1296 

7.0 

6  19.962 

72.4 

+3-3765-  -0134 

+  .OO2 

—  .0024      o 

.08           .36        .16 

2463 

Br  1288 

5-4 

6  26.442 

71.0 

+  4.7869—  .0912 

+  .O20 

—  .0002—    I 

•08           .33         .15 

2464 

Br  1298 

6.7 

6  49.280 

66.1 

+3.  2885-.  0113 

+  .OO2 

-.0363+    2 

.08           .30        .16 

2465 

Br  1295 

5-4 

7  15-921 

81.0 

+3.9421-.  0376 

+  .003 

—  .0021       o 

.06            .34         .12 

2466 

Pi  13 

6.0 

7  23-897 

84.2 

+  2.  7466+.  OOl6 

+  .004 

—  .0050      o 

.IO         I.  O2          .28 

2467 

L3723 

5-° 

7  26.666 

85-5 

+  2.  1  743  +  .0046 

+  .006 

—  .0013      o 

.l6            .78         .25 

2468 

Br  1301 

6-3 

7  29.778 

73-6 

+  2.9642—  .0022 

+  .003 

—  .0008      o 

.12           .54         .23 

2469 

Radcl  2290 

7-7 

7  33-837 

86.0 

+  4.1153-.  0552 

+  .007 

—  .1741  +  10 

.09           .57         .16 

2470 

Radcl  2291 

7-9 

7  35-769 

86.9 

+  4.1178-  .0555 

+  .007 

-•1715+  9 

.11            .62         .18 

2471 

Br  1299 

6.6 

7  54-640 

71.9 

+  3.4344-  .0155 

+  .OO2 

—  .0007      o 

.09           .48         .20 

2472 

L3727 

6.0 

8    0.994 

80.5 

+  2.I2OI  +  .O044 

+  .006 

—  .0027      o 

.18           .90        .32 

2473 

L3738 

3-4 

8  20.064 

80.2 

+  1.5788-  .0030 

—  .OOI 

—  .0052—    i 

.11             .58         .20 

2474 

Br  1293 

5-6 

8  25.491 

7i-3 

+4.4803  -.0703 

+  .OI2 

—  .0012      o 

.10        .34      .17 

2475 

L  3729 

5-8 

8  48.546 

89.9 

+  2.  2178  +  .  0049 

+  .OO6 

—  .0018      o 

.20            .96         .27 

2476 

Br  1297 

5-o 

8  59-737 

59-7 

+  4.3481  —  .0611 

+  .009 

+  .0070      o 

.09            .30         .l8 

2477 

L3753 

4.1 

9    0.442 

81.9 

+  1.3662—  .0084 

—  .O06 

—  .0067—    i 

.12            .64         .22 

2478 

Br  1300 

6.2 

9    6.036 

68.2 

+  3.6966—  .0265 

+  .O02 

-.0118+   i 

.IO            .42         .20 

2479 

6  Hydra 

4.0 

9    9-735 

76.2 

+  3.1244—  .0060 

+  .003 

+  .0087-    i 

.04            .20         .08 

2480 

ir  Cancri 

5-7 

9  42.669 

65.2 

+  3-3i82-.oii7 

+  .OO2 

—  .0025      o 

.08            .38         .19 

2481 

L3743 

6.0 

10    3-774 

88.4 

+  2.  1  045  +  .0045 

+  .006 

—  .0024      o 

.16      1.18      .30 

2482 

1,3760 

5-7 

10  18.561 

88.7 

+  1.5710-  .0032 

—  .OOI 

—  .0008       o 

.18      .98     .27 

2483 

L  3749 

5-4 

10  40.585 

86.7 

+  2.  2355+.  0051 

+  .006 

—  .0031       o 

.16        .78      .24 

2484 

Pi  19 

6.2 

10  48.703 

65-4 

+  4.0468—  .0440 

+  .004 

+  .OO20         O 

•IS        -57      -29 

2485 

L3748 

6.2 

10  57-835 

85-7 

+  2.3904+.  0050 

+  .006 

—  .0001       o 

.13        .64      .20 

2486 

£  Octantis 

5-5 

II  14.45- 

78.7 

—  7.860  —  1.629- 

—  .101-  —66 

.05        .40      .14 

2487 

L  3762 

5-2 

II  20.044 

85.2 

+  i.78o2  +  .ooio 

+.003 

-  -0035       o 

.16        .78      .25 

2488 

L  375° 

7-3 

II  25.244 

88.8 

+  2.  4944  +.0045 

+  .006 

+  .0024       o 

.14        .98      .25 

2489 

L3756 

4-9 

II  40.205 

81.2 

+  2.  362  1  +  .OO50 

+  .006 

—  .0066       o 

.11        .44      .16 

2490 

Br  1307 

5-6 

ii  43-739 

67.8 

+  2-9795-  -0024 

+  .004 

+  .0003      o 

.12           .52         .25 

2491 

I>3755 

4-7 

ii  44-945 

86.1 

+  2.3996+.  0051 

+  .006 

+  .0019      o 

.13            .64         .20 

2492 

Br  1308 

5-7 

ii  47-393 

71.8 

+  2.9386—  .0016 

+  .004 

—  .0027       o 

.12             .51          .23 

2493 

ft  Carinae 

!-5 

12      6.214 

67.0 

+  0.6750-  .0358 

-•037 

-.0313-     2 

.06            .32          .15 

2494 

Dpt  noi  w 

12  16.071 

93-3 

+  3.7124—  .0276 

+  .O02 

-.0037       o 

.15        .66      .19 

2495 

Br  i3°S 

3-9 

12  37.411 

74-9 

+  3-7476-  -0294 

+  .003 

—  .0021—    I 

.04           .22         .09 

2496 

Br  1311 

7-7 

12  40.410 

72.1 

+  2.  8882  -.0005 

+  .004 

—  .0021       o 

.15      .70    .31 

2497 

L  3764 

5-o 

12  41.192 

87-5 

+  2.2I35  +  .0052 

+  .OO6 

—  .0027       o 

.18      I.  II      .31 

2498 

Br  1302 

7-8 

12  50.427 

73-6 

+4-6333-  -0837 

+  .O20 

+.0057-  I 

.11       .38     .18 

2499 

L  3765 

5-3 

13      I.82I 

83-4 

+  2.  3500  +.OO5  2 

+  .OO6 

—  .0023      o 

.18      .94     .31 

2500 

L3782 

4.1 

9  13  22.621 

86.8 

+  1.6945—  .0005 

+  .OO2 

—  .0036—    I 

.18        .86      .27 

2459/8410.    8*6 
2460  h  4183.    9?5 


i'/8 
i8" 


162° 
is7°. 


2469  Lai  18115. 
2475  h  4188.     7 


2'.'7  284° 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


IOI 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i'andiooA|i; 

Prob.  Errors. 
8  Ep.    100  n'  6  10 

Remarks. 

2451 

Of                ft 

-   8  ii    6.52 

81.4 

//          it 
—  14.426—  .291 

// 

+  .11 

rt 
—  .017      o 

//         //       // 
•o?      -37    -13 

19  Hydrae 

2452 

-43    *  43-75 

71.6 

-I4-435-  -217 

+  .0S 

+  .005      o 

.07      .30    .13 

2453 

-US?    9-3° 

89.6 

-14.470-.  285 

+  .11 

—  .024      o 

.12         .85      .21 

2454 

-17  ss  25.83 

98.2 

-  14-449-  -273 

+  .10 

—  .001      o 

.13         .8l      .16 

2455 

+  22  24    8.89 

61.2 

-14.462  -.343 

+  .18 

—  .005      o 

.09         .42      .22 

79  Cancri 

2456 

-     8  22  54.15 

71-5 

—  14.482—  .290 

+  .12 

—  .019      o 

.11         .39      .19 

20  Hydrae 

2457 

-7°    8    9-33 

83-9 

-14.465  -.045 

+.08 

+  .005      o 

.15         .69      .23 

115  G  Carinae  E 

2458 

—  72  12     0.79 

78.8 

—  14.482—  .012 

+.11 

-.008+  I 

.IO         .51      .19 

i  i6G  Carinae  G 

2459 

-  25  23  48.79 

78.7 

-14.500-  .259 

+  .09 

+  .004      o 

.12         .60     .22 

54  G  Pyxidis  * 

2460 

-2957  25.26 

75-4 

—  14.562-.  249 

+  .08 

—  .038      o 

.11         .44     .19 

tMali* 

2461 

+  73  21  35-52 

76.1 

-14.598-  -608 

+.87 

-.066+     2 

.08        .42      ,l6 

2462 

+  18  27  13.45 

68.9 

-14.592-.  332 

+  .18 

-  .030      o 

•07         -31      -IS 

80  Cancri 

2463 

+  61  50    7.18 

67.2 

—  14.600—  .474 

+  .46 

-  .032      o 

.08        .27      .14 

1  6  Ursae  Maj  c 

2464 

+  15  23  56.42 

68.9 

-14.356-  .319 

+  .16 

+  .235+  4 

.08        .31      .15 

8  1  Cancri  (irl) 

2463 

+43  37  48.00 

75-6 

-14.664-.  387 

+  .27 

-  .047      o 

.06        .27      .11 

36  Lyncis 

2466 

—  19  20  2O.2O 

83.2 

-14.594-  .267 

+  .09 

+  .031      o 

.10         .73      .22 

107  G  Hydrae 

2467 

-4427  31.25 

79-6 

—  14.628—  .210 

+  -05 

.000      o 

.13         .56      .21 

103  G  Velorum 

2468 

-  641  59.14 

70.7 

—  14.606—  .289 

+  .12 

+  .025      o 

.10      .38    .18 

1  06  G  Hydne 

2469 

+  53    653.10 

86.1 

-15.  231-.  388 

+  •34 

-.596+16 

.08         .57      .16 

1  2  1321.    Slow  binary* 

2470 

+  53    7    1-38 

84.0 

-I5-3I7-  -389 

+  •34 

-.680+16 

.10      .55    .17 

J  Parallax  o'/2o 

2471 

+  21  41  42.42 

70.9 

-14.681-.  335 

+  .18 

—  .025      o 

.08         .40      .l8 

2472 

—  46  10  26.39 

82.6 

—  14.668—  .204 

+  •05 

—  .006      o 

.l6         .91      .30 

105  G  Velorum 

2473 

-583326.38 

78.6 

—  14.686—  .150 

+  .04 

—  .005      o 

.09         .47      .18 

117  G  Carime  a 

2474 

+  57    922.18 

64.2 

-14.722-.  438 

+  .38 

-  -035      o 

.09         .27      .15 

17  Ursae  Maj 

2475 

-43  12    7.52 

84.2 

—  14.718-  .213 

+  .06 

-.008      o 

.15         .71      .24 

1  06  G  Velorum  * 

2476 

+  54  26    5.79 

56-4 

—  14.661  -.425 

+  •35 

+  .060-   i 

.07         .27      .l6 

1  8  Ursae  Maj  e 

2477 

-61  54  23.64 

78.6 

—  14.716—  .128 

+  .04 

+  .005+   i 

.IO         .49      .l8 

119  G  Carinee  i 

2478 

+  35    2  45-87 

65.6 

-  14.693-  .358 

+  .23 

+  •034+   i 

.09         .40      .20 

2479 

+   2  44  10.39 

78.4 

-15.042-.  304 

+  .14 

-.312-   i 

.04         .19      .07 

2480 

+  15   21   22.67 

65-3 

—  14.781—  .321 

+  .16 

-  .018      o 

.08         .35      .I? 

2481 

-465531.25 

84.0 

-14-795-  -201 

+  .05 

—  .Oil        O 

.13         .80      .24 

1  10  G  Velorum 

2482 

—  59    o    4.28 

81.5 

—  14.802—  .148 

+  .04 

—  .004      o 

.14         .64      .23 

121  G  Carinae 

2483 

—  42  48  47.68 

81.6 

—  14.821—  .213 

+  .06 

—  .001      o 

.14         .60      .22 

1  1  2  G  Velorum  z  * 

2484 

+  47  14    2.86 

56-3 

-I4.820-.  391 

+  .29 

+  .008      o 

•13         -51      -3° 

2485 

-37  ii  12.13 

81.0 

—  14.851—  .228 

+  .07 

—  .014      o 

.12         .51      .19 

113  G  Velorum 

2486 

—  85  15  46.89 

79-8 

-I4.820+.  786 

+  .033+10 

.05         .37      .12 

2487 

-55    919-21 

82.6 

—  14.845—  .168 

+  .04 

+  .014      o 

.13         .6l      .21 

114  G  Velorum 

2488 

-32  5425.56 

83.1 

-14.897-.  238 

+  .08 

-  -033      o 

•i?    1-05    -33 

2489 

-38    911.15 

76.7 

-14.879-  .224 

+  .07 

—  .001+     I 

.11      .43    .18 

115  G  Velorum  / 

2490 

-   5  56    9.28 

69.1 

—  14.882-.  285 

+  -I3 

.000      o 

.10      .40    .19 

23  Hydrae 

2491 

-365946.33 

80.0 

—  14.885-.  228 

+  .07 

—  .002      o 

.12        .49     .19 

117  G  Velorum  k 

2492 

-   8  19  38.66 

72.1 

-14.886-  .280 

+  .12 

—  .001      o 

.10      .40    .18 

24  Hydrae 

2493 

—  69  18  18.94 

70.7 

—  14.806—  .056 

+  .07 

+  .098+  3 

.06         .29      .13 

2494 

+  35  47    1.89 

76.6 

-14.949-  .355 

+  .23 

-  .036      o 

.10      .39    .16 

• 

2495 

+  37  13  32-78 

73-8 

-15.069-  .358 

+  .24 

-•135     ° 

.04         .21      .09 

38  Lyncis  * 

2496 

-ii  32  31.71 

69-S 

-I4.992-.  274 

+  .11 

-  -055    ° 

.12        .44     .22 

25  Hydrae 

2497 

-43  5052.98 

82.7 

-14.954-  .208 

+  .06 

—  .016      o 

.15      .88    .28 

1  1  8  G  Velorum 

2498 

+  6O  12      9-IO 

72.6 

-  14-974-  -445 

+  .42 

—  .027—    I 

.08        .32      .15 

20  Ursae  Maj 

2499 

-38585S-67 

83-3 

—  15.009—  .222 

+  .07 

-.051      o 

.15         .80     .26 

1  20  G  Velorum 

2500 

-57    722-31 

79-5 

—  I5.OOO—  .157 

+  .04 

—  .022      o 

•  14      -59    -23 

125  G  Carirue  g 

3483  h  4191. 


5'/6  12° 


2494  2  1333.     61'6-6I!*9  i '.'6  45°,  very  slow. 


2495  2  1334-    6*6  2'.'8  235° 


IO2 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS   FOR    1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i  and  100  A  \L 

Prob.  Errors. 
a  Ep.     loop    a  10 

M 

h    m         s 

s               s 

s 

s 

//                 //             n 

2501 

Br  1309 

6.9 

9  13  24.061 

75-9 

+3-3551-  .0135 

+  .O02 

—  .0081,     o 

.03            .21         .08 

2502 

Br  1306 

6.4 

13  47-407 

66.3 

+4.1901—  .0536 

+  .007 

—  .OO4I+    2 

.11             .40         .21 

2503 

i  Carinae 

2.O 

14  24.802 

68.4 

+  1.6065—  .0023 

.OOO 

—  .0034       o 

•06      .33     .15 

2504 

L3786 

5-4 

14  46.194 

85.6 

+  1.9934+.  0040 

+  .005 

—  .0038      o 

.14            .64         .21 

2505 

Pi  52 

6.1 

14  49.906 

87.8 

+  2.8326+.  0007 

+  .005 

+  .0034      o 

.16       I.  II       .30 

2506 

Br  1314 

S-o 

I457-4H 

69.0 

+  2.8908—  .0004 

+  .004 

—  .0014      o 

.12            .40         .20 

250? 

a  Lyncis 

3-3 

14  57.899 

75-i 

+  3.6676—  .0265 

+  .003 

—  .0176+   I 

.03            .18         .07 

2508 

Br  1313 

7-5 

15  21.723 

76.8 

+  3-4977-  -Ol86 

+  .003 

+  .0041—    I 

.10        .39      .16 

2509 

L  3794 

6.0 

15  24.094 

87-7 

+  1.9745  +  .0038 

+  .006 

—  .0064—    I 

.20         1.42          .37 

2510 

Br  1316 

7.2 

15  28.193 

75-7 

+  2.9296—  .0012 

+  .004 

—  .0006       o 

.15            .70         .28 

25" 

Br  1317 

S-o 

15  36-059 

7i-5 

+  2.9297—  .0012 

+  .004 

—  .0014       o 

.13            -SI          .24 

2512 

Br  1310 

7-5 

15  43-215 

73-2 

+  4.1162—  .0501 

+  .008 

—  .0014      o 

.IO            .44         .19 

2513 

L38n 

5-5 

IS  53-420 

88.0 

+0.8493—  -O29i 

—  .027 

-.0222-     5 

.20            .93          .28 

25H 

L  3809 

6.0 

16    8.372 

90.1 

+  1.0432—  .0204 

—  .019 

-.0015      o 

.20      i.oo      .28 

2515 

L  37901 

7.6 

16  30.272 

82.8 

+  2.5376+.  0046 

+  .OO6 

—  .0022       o 

.14      .75     .24 

2516 

6  Pyxidis 

5-o 

17    3-944 

80.2 

+  2.6541  +  .0035 

+  .006 

—  .0015      o 

.07      .38    .13 

2517 

L  3846  m 

5-5 

17  36.067 

84.0 

—  0.0634—  .0878 

-.118 

-  -0055         ° 

.18      .78     .27 

2518 

Br  1318 

6.7 

17  44.676 

65.S 

+  3-4797-  -0185 

+  .003 

—  .0092       o 

.15     .51    .27 

2SI9 

L38o3 

5-8 

18    0.446 

93-4 

+  2.  3006  +  .0058 

+  .007 

+  .0034      o 

.16     1.17     .25 

2520 

Br  1319 

7-i 

18  18.756 

71.6 

+  3.5024-  .0192 

+  .003 

+  .0009      o 

.10        .44      .19 

2521 

L3823 

4.8 

18  32.734 

91.2 

+  1.445  1  -.0065 

—  .OO4 

—  .0009      o 

.18      1.  06      .27 

2522 

Br  1315 

8.0 

18  33-079 

6S-3 

+  4.2816—  .0620 

+  .013 

—  .0017      o 

.12            .39         .21 

2523 

I>38i3 

5-8 

18  47-325 

88.5 

+  I.8247+.OO22 

+  .004 

—  .0089      o 

.16           .98         .27 

2524 

Leonis 

4-7 

18  49-9J9 

77-3 

+  3-S°3I--OI94 

+  .003 

—  .0023       o 

.08           .28         .12 

2525 

X  Pyxidis 

S-o 

18  52.487 

83-9 

+  2-5933  +  -0042 

+  .006 

—  .0117      o 

.09           .60        .18 

2526 

K  Velorum 

2.4 

19    i.on 

78-3 

+  1.8558  +  .0026 

+  .004 

—  .0023      o 

.10        .45      .17 

2527 

Br  1321 

6.9 

19    7.702 

73-8 

+  3.3840-  .0149 

+  .003 

—  .0062      o 

.09           .48         .20 

2528 

Pi  74 

6-5 

20    0.227 

63-5 

+  3-3299-  -oi28 

+  .003 

-  .0053       o 

.13            .62         .32 

2529 

Br  1326 

6.0 

20  24.026 

68.2 

+  3.0007—  .0027 

+  .004 

—  .0014      o 

.13            .40         .21 

2530 

Br  1325 

5-6 

22      6.842 

67.9 

+  3-9530-  .0427 

+  .008 

—  .0003—    I 

.09            .33         .16 

2531 

Pi8i 

8.1 

22      9.289 

89.8 

+3-95I3-  -0425 

+  .008 

—  .0012      o 

.11             .54         .16 

2532 

Br  1327 

6.8 

22  20.656 

73-8 

+  2.9379—  .0012 

+  .004 

—  .0032      o 

.15            .57          .26 

2533 

a  Hydrae 

2.O 

22  40.427 

66.7 

+  2.9488—  .0014 

+  .004 

—  .OOI  I         O 

.02             .11          .05 

2534 

Lai  18639 

5-° 

22  43.794 

93-° 

+  2.  7456+.  O028 

+  .005 

+  .0138      o 

.10        .81      .17 

2535 

Abo  196 

S-6 

22  49.560 

72-5 

+  2.9740—  .OO24 

+  .004 

—  .0148      o 

.IO            .51          .22 

2536 

i  H  Draconis 

4.6 

22  SI.27S 

72.6 

+  8.9178-  .7756 

+  1-358 

-.0043-  3 

.03            .18         .08 

2537 

L  3854. 

5-3 

23      2.691 

93-4 

+  1.947  9  +.004  1 

+  .005 

—  .0048—    I 

.21          1.22          .29 

2538 

a)  Leonis  m 

S-6 

23      6.l66 

63-4 

+  3.2172—  .0088 

+  .003 

+  .0036      o 

.IO            .46         .24 

2539 

Br  1329 

6.1 

23    9-733 

71.2 

+  3.  1985-  .0084 

+  .003 

—  .0020      o 

.14            .51          .24 

2540 

Br  1323 

3-6 

23  39.006 

7i-3 

+  4.7794-.  1033 

+  .040 

+  .OI7O—     2 

.04            .20         .09 

2541 

Br  1334 

4.9 

24    4.394 

77-3 

+  3.0465-  .0036 

+  .004 

+  .0084      o 

.11             .52         .21 

2542 

L  3890 

6-5 

2434.126 

77-7 

+  1.3041—  .0108 

—  .009 

—  .0106      o 

.15        .68      .26 

2543 

Br  1331 

6.1 

24  40.732 

74-4 

+  3.6390—  .0264 

+  .005 

—  .0006      o 

.12            .75         .29 

2544 

e  Antliae 

4.6 

25    7.071 

89.0 

+  2-4735  +  -0059 

+  .007 

—  .0022      o 

.10        .75      .19 

2545 

Pi  101 

7.0 

25  14.666 

81.4 

+  2.6556  +  .  0040 

+  .006 

—  .0065      o 

.12            .70        .24 

2546 

Br  1333 

5-6 

25  27.364 

84.8 

+  3.6638-  .0279 

+  .005 

—  .0047       o 

.12            .45         .16 

2547 

Br  1322 

6.0 

25  28.017 

66.6 

+  5.7608—  .2116 

+  -IS3 

+  .0177-  7 

.11             .57          .27 

2548 

Pi  105 

5-9 

25  28.196 

84.7 

+  2.  6604  +.OO4I 

+  .OO6 

—  .0023      o 

.11        .68      .20 

2549 

Br  1324 

4-7 

25  38.814 

78-4 

+  5.3853-.  1680 

+  .104 

-.0113+  5 

.04        .26      .09 

2550 

X  Leonis 

4-S 

9  26    0.993 

60.9 

+  3.4309-  .01  7  1 

+  .004 

—  .0016      o 

.08        .38      .20 

2502  OS  199.     IOM  6"  121°. 
2512  2  1340.     9M  6"  320°. 


2517    Star  A,  6*0-6*6  o'/3  264°;  h  4206  IOM  7"  341°. 
2522  2  1346.     9*0  5"  312°. 


CATALOGUE   OF   6 1 88    STARS   FOR    1 900 


103 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3flt 

l*'andiooA|i' 

Prob.  Errors. 
SEp.    100  n'  8  10 

Remarks. 

2501 

0             /                 // 

+  18    7  45.63 

75-o 

//                      // 

-I5.ii7-.3i8 

// 

+   .18 

// 
-.138+    i 

.03      .22     .08 

83  Cancri 

2502 

+  51  41    2.65 

56.8 

-14.867  -.398 

+  -33 

+  -I3S       o 

.10      .31     .19 

Ursa  Maj  (37  Lyncis)  * 

2503 

-58  51  20.46 

7i-5 

—  15.040—  .148 

+  .04 

—  .002       o 

.06      .31     .13 

2504 

-  5°  37  49-03 

82.4 

-15.054-.  185 

+  -05 

+  .005      o 

.11       .51     .18 

122  G  Velorum  K 

2505 

-15  2439.91 

86.4 

—  15.119—  .266 

+  .11 

-.057      o 

.13         .75      .22 

121  G  Hydras 

2506 

-ii  33  10.26 

72.0 

—  15.066—  .272 

+    .12 

+  .004      o 

.10     .38    .18 

26  Hydrae 

2507 

+  3448  55-57 

73-6 

-15.060-.  344 

+    -23 

+  .OIO+     2 

.04         .20      .08 

40  Lyncis 

2508 

+  25  35  27-36 

78.! 

-15.243-.  330 

+    .20 

-.150      o 

.09         .40      .l6 

2509 

-51    8  19.88 

87.0 

—  15.101—  .182 

+    -05 

—  .006+   I 

.16      1.30      .34 

123  G  Velorum 

2510 

-   9  ii  10.14 

75-3 

-15.  138-  .274 

+    .12 

-  .039      o 

.12         .59      .24 

Doo.  IOM  10"  197° 

2511 

-   9    7  53-02 

69.0 

-15.  132-.  274 

+    .12 

-  -025      o 

.10      .37    .18 

27  Hydras 

2512 

+  49  58  12.46 

59-5 

-i5.i22-.388 

+    -31 

—  .008      o 

.09         .27      .l6 

Ursa  Maj  (39  Lyncis)  * 

2513 

-68  16    3.30 

85-4 

-15.  147-.  073 

+    .06 

-.024+    2 

.15         .77      .24 

128  G  Carinae 

25U 

-6637  45.70 

86.7 

-15.  119-  .093 

+    -OS 

+  .019      o 

.16         .8l      .25 

129  G  Carinae 

2515 

-31  20    9.44 

78.2 

—  15.  172-.  236 

+    .09 

—  .014      o 

.12         .63      .23 

h  4200.  8?3  3"  72° 

2516 

-25  32  23.21 

77-3 

-15.  199-  .246 

+    .09 

—  .009      o 

•o?      -35    -13 

(Mali  K) 

2517 

-74  28  20.58 

83.2 

-I5.i89+.oi3 

+   .14 

+  .032      o 

.15      .67    .23 

131  G  Carinae  * 

2518 

+  25  3636-93 

61.8 

-15.232-.  323 

+   .20 

-.003+  I 

.12        .50     .27 

2519 

—  41  46    0.96 

89.6 

—  15.285—  .212 

+  .07 

—  .041      o 

.12        .73      .19 

126  G  Velorum 

2520 

+  26  20  52.61 

67.2 

-i5.3ii-.325 

+  .20 

—  .050      o 

.08        .35      .I? 

2521 

—  61  58  42.49 

83.1 

-15.  290-.  130 

+  .04 

-.015       o 

.13         ,6l      .21 

132  G  Carinae  k 

2522 

+  54  2646.57 

50.8 

-15-302-  -398 

+  -35 

—  .027      o 

.10         .31      .21 

21  UrsaeMaj  * 

2523 

-55    5  23-I9 

84.9 

—  15.242—  .165 

+  .04 

+  .046+  I 

.13         .71      .22 

128  G  Velorum 

2524 

+  26  36  46.09 

75-7 

-15-344-  -324 

+  .20 

-  -053       o 

.07        .28     .12 

/3  105.   IIM  3"  205° 

2525 

—  28  24  22.30 

82.0 

-15.272-  .237 

+  .09 

+  .O22+     I 

.09        .46     .16 

2526 

-5435    0.99 

75-4 

-  15.306-.  168 

+  .04 

-.005       o 

.08        .37      .15 

2527 

+  2013    9.33 

73-5 

-15.429-  .312 

+  .18 

—  .121+     I 

.08        .42      .17 

2528 

+  17    i    1.36 

60.4 

-15-377-  -305 

+  -17 

—  .020      o 

.12         .60      .32 

2529 

—   4  41  10.08 

69.7 

-15.389-  .274 

+  -i3 

—  .OIO         0 

.11         .39      .19 

28  Hydrae  (A) 

2530 

+  46      2  23.15 

61.8 

—  15.611—  .360 

+  .29 

-.136      o 

.07         .26      .14 

41  Lyncis 

2531 

+46   I   6.89 

84.8 

-I5-530-  -360 

+  .29 

-  -053      o 

.10      .45    .15 

2532 

-   8  47  23.46 

72.2 

-15.499-  .265 

+    .12 

—  .Oil          0 

.12        .46     .21 

29  Hydrae  * 

2533 

-   8  13  30.38 

66.2 

-15.475-.  266 

+    .12 

+  .031      o 

.02        .11      .05 

2534 

-2i  54  18.37 

92.0 

—  15.670—  .248 

+  .10 

—  .161—   I 

.11         .85      .19 

141  G  Hydrae  G 

2535 

-   5  38    3-40 

70.1 

-15.588-  .266 

+  -13 

-.074+  I 

.08        .41      .18 

2536 

+  81  46    6.91 

80.0 

-  15.541-.  816 

+  2.30 

-.025      o 

.03        .19     .06 

Pi  37.   Groombi537 

2537 

-52  5643.90 

84.6 

-15.541-.  173 

+  .05 

—  .014      o 

•IS      -71    -23 

136  G  Velorum  / 

2538 

+  9  2931.97 

Si-7 

-15.543-.  290 

+  .16 

-.013      o 

.07      .29    .18 

* 

2539 

+  8  37  28.81 

64.7 

-15.  561-.  288 

+  .16 

—  .028      o 

.13      .42    .23 

3  Leonis  * 

2540 

+  63  29  57.05 

70.9 

-15-535-  -434 

+  .48 

+  .025-     2 

.04     .19    .09 

23  Ursae  Maj  h* 

2541 

-   2  19  54.72 

73-3 

—  15.602—  .274 

+  .14 

—  .019—     I 

.09     .39    .17 

31  Hydrae  r1 

2542 

-64  2946.31 

79-4 

-i5.55i-.ii2 

+  .04 

+  .059+     I 

.13         .60      .22 

137  G  Carinae 

2543 

+  34    5  42-73 

68.3 

—  15.682—  .326 

+  .23 

—  .065       o 

.10         .48      .22 

7  Leonis  Min 

2544 

-35  3050-28 

79-3 

—  15.660—  .219 

+  .08 

—  .019      o 

.11         .51      .19 

• 

2545 

-26    9  19.73 

77.0 

-15.688-  .235 

+  .09 

—  .040+   I 

.11         .55      .21 

2546 

+  35  32  43-34 

75-3 

-15.776-  .326 

+  .23 

—  .117      o 

.10     .35    .16 

8  Leonis  Min 

2547 

+  72  38  59-44 

58-7 

-15.729-  .519 

+  .78 

—  .069—     2 

.12         .36      .22 

22  UrsaeMaj 

2548 

—  26    9    5.19 

81.1 

-15.671-.  235 

+  .09 

—  .on       o 

.10      .55    .19 

3  G  Antliae 

2549 

+  70  16  11.94 

76.0 

—  15.600—  .482 

+  .66 

+  .070+   i 

.05        .22      .09 

24  UrsaeMaj  d 

2550 

+  23  2432.18 

59-o 

-15.741-.  305 

+  .19 

—  .051      o 

.06        .31      .I? 

059°-     i2Mn"i74°. 
2539  W.  H.     IIM  25"  80°. 


2538  2  1356.     6*?2-7™o  i",  binary,  116  yrs.  ±. 
2540  S  1351.     9"  23"  270°. 


iO4 


PRELIMINARY   GENERAL  CATALOGUE  OF  STARS   FOR    1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

|i  and  100  A  p. 

Prob.  Errors. 
a  Ep.      100  (i     a  10 

M 

h    m         s 

s               s 

S 

s 

ff             n           // 

2S5I 

L  3914 

5-5 

9  26   7.215 

89.1 

+0.6103  -.0443 

-.051 

-•0243-   3 

.18          .93        .27 

2552 

6  Ursae  Maj 

3-2 

26  10.336 

70-3 

+4.0387-.  0550 

+  .014 

—  .1026+  5 

.03          .14       .06 

2553 

L  3880' 

7.2 

26  28.754 

82.2 

+  2.5621  +.0053 

+  .006 

—  .0027      o 

.16        1.38        .42 

2554 

L  3880* 

6.9 

26  29.145 

83-6 

+  2.5652  +.0053 

+  .006 

+  .0003      o 

.13          .78        .24 

2555 

£  Leonis 

5-2 

26  33-399 

69.0 

+  3.  2383-.  oioo 

+  .003 

—  .0065      o 

.06          .30       .14 

2556 

Br  J339 

S-S 

26  35.991 

65.3 

+  3.2204—  .0092 

+  .004 

—  .0005      o 

.09            .45         .22 

2557 

L3894 

5-7 

26  40-413 

85.0 

+  2.0438+.  0056 

+  .007 

—  .0021      o 

.20      no      .34 

2558 

tfi  Velorum  m 

3-5 

26  45.687 

82.6 

+  2.3599+.  0065 

+  .007 

—  .0164—   i 

.08           .42         .14 

2559 

Br  1341 

4.6 

26  53-057 

84.2 

+  3.0604—  .OO42 

+  .004 

—  .0012       o 

.08           .50        .15 

2560 

L3884 

6.2 

27  iS-537 

84.8 

+  2.5640+.  0054 

+  .006 

—  .0034      o 

.11            .72         .21 

2561 

Br  1337 

6.6 

27  22.217 

68.2 

+  3.6962—  .0296 

+  .005 

+  .0032       o 

.14           .51         .26 

2562 

L  3904 

5-9 

27  28.185 

90.! 

+  1.7483+.  0014 

+  .004 

—  .0074      o 

.20         I.  II          .29 

2563 

iChamaeleontis 

5-5 

27  29.285 

81.8 

—  1.8421—  .3029 

-.628 

—  .0590—   8 

.10        .68      .22 

2564 

Lai  18792 

6.0 

27  41.611 

97-6 

+  2.  7897  +  .0023 

+  .005 

+  .0005      o 

.12             .92          .17 

2565 

Br  1336 

4-7 

2?  58-S71 

58.3 

+  4.1383-.  0569 

+  .014 

—  .0063      o 

.13             .40         .25 

2566 

Br  1340 

4.8 

28    5-955 

85-9 

+  3.6896—  .0295 

+  .005 

+  .001  1         0 

.05             .28         .08 

2567 

L  3910 

2.8 

28  11.000 

80.0 

+  I.82I3  +  .0027 

+  .005 

—  .0048      o 

.10        .54      .19 

2568 

1,3900 

S-S 

28  21.057 

90.2 

+  2.3783  +  .0068 

+  .007 

+  .OOOI         O 

.12             .70         .l8 

2569 

Arm  2  i  02 

5-3 

28  36.193 

89-5 

+  2.  7610+.  OO28 

+  .005 

—  .0019      o 

.09            .92         .21 

2570 

Pi  us 

S-o 

28  49.605 

64.8 

+  3-7585-  -°334 

+  .007 

—  .0027       o 

•15        -57      -3° 

2571 

Paris  11778 

6.1 

28  52.941 

91.2 

+  2.  7318+.  0033 

+  .006 

—  .0027       o 

.14         1.  12         .25 

2572 

Br  1344 

5-9 

29  33-255 

69-3 

+  2.9943-  .0023 

+  .004 

.0000      o 

.11             .40         .20 

2573 

Br  1343 

5-6 

29  39.811 

65-1 

+  3.6121—  .0284 

+  .005 

—  .0582+    2 

.08            .30         .l6 

2574 

R  Carinae 

Var. 

29  43-7l8 

88.1 

+  1.5  1  1  4-  .0044 

—  .002 

—  .0059—    I 

.l8         1.O6         .29 

2575 

L  3917  m 

5-4 

3°    9-253 

84-3 

+  2.i5ii  +  .oo67 

+  .008 

—  .0005      o 

.l6            .84         .27 

2576 

Br  1345 

6.6 

30  25.032 

67.2 

+  3.2845-  .0117 

+  .004 

—  .0027      o 

.10        .38      .19 

2577 

L  3925 

5-2 

30  40.743 

84.0 

+  2.0758+.  0062 

+  .007 

—  .0025       o 

•l8         1  .08         .33 

2578 

Pi  124 

5-8 

30  46-952 

84-5 

+  3.5718-  .0240 

+  .005 

+  .OOIO         0 

.11            .46         .16 

2579 

1,3968 

5-6 

30  5i-43i 

88.0 

+  0.4762-.  0558 

-.071 

—  .0068—     2 

.15            .78         .23 

2580 

Br  1347 

6.2 

31  31.606 

73-5 

+  3-3l65--oi29 

+  .004 

—  .0007       o 

.09           .36         .16 

2581 

L3949 

4-i 

3i  32.594 

77-i 

+  1.7398+.  0014 

+  .003 

—  .0018      o 

.12            .51         .21 

2582 

Br  1349 

5-4 

3i  S5-923 

65.2 

+  3.  1  708-  .007  7 

+  .004 

—  .0044      o 

.08           .39         .19 

2583 

Br  1348 

6.9 

32    6.621 

70.0 

+  3.4415-  .0184 

+  .004 

—  .0077      o 

.08           .39         .18 

2584 

Br  1346 

5-4 

32    7-251 

80.2 

+  3.  7617-.  0344 

+  .007 

—  .0017      o 

.08           .36         .14 

2585 

1,3928 

6.1 

32  30-34i 

88.2 

+  2.6959+.  0042 

+  .007 

—  .005  1       o 

.11         I.OS         .26 

2586 

Br  1350 

6.9 

32  33-9I9 

80.2 

+  3.279i-.oii7 

+  .004 

—  .0050      o 

.12           .36        .16 

2587 

L3939 

5-8 

32  5I.6S4 

82.0 

+  2.s8n  +  .oo59 

+  .007 

+  .0036      o 

.11            .58         .20 

2588 

Br  1353 

6.7 

32  57-351 

71.9 

+  2.9423—  .0008 

+  .005 

-  .0037       o 

.10        .34      .16 

2589 

Br  1352 

4.9 

33  14-360 

70.2 

+  3.1326—  .0066 

+  .004 

—  .OIIO         O 

.08           .33         .15 

2590 

L39S2 

4-4 

33  I4-792 

82.0 

+  2.  1  443  +  .0069 

+  .008 

—  .0125—   I 

.11            .75         .24 

2S9I 

Groomb  1564 

6.0 

33  41.602 

81.0 

+  5.2129—  .1608 

+  .108 

—  .0115      o 

•05            -44        -14 

2592 

Br  1342 

5-6 

33  45-173 

72-7 

+  5.6242—  .2108 

+  -I73 

-.0053      o 

.08           .33         .14 

2593 

L  3961  m 

5-6 

33  51-864 

90.4 

+  2.  0006  +.005  8 

+  .007 

-.0075-  I 

.20         I.O2          .28 

2594 

L  3956 

5-6 

34    7.018 

92.2 

+  2.3407  +  .0075 

+  .008 

+  .0024      o 

.13            .82          .20 

2595 

i  Hydrae 

4.1 

34  44.968 

78.2 

+  3.0659-  .0041 

+  .005 

+  .0031       o 

.06            .28         .11 

2596 

Br  1358 

6-S 

34  54.387 

7i-3 

+  2.9284—  .0004 

+  .005 

—  .0028      o 

.12            .52         .24 

2597 

Groomb  1569 

7.6 

35  10.808 

86.0 

+  3-7275-.  0330 

+  .008 

+  .0066—    I 

.12            .44        .16 

2598 

Groomb  1562 

6-3 

35  27-145 

63-6 

+  7-3587-  -5045 

+  .772 

—  .0060      o 

.11            .51         .26 

2599 

Br  1361 

6-5 

35  27-276 

74-2 

+  2.9286—  .0003 

+  .006 

-.0003      o 

.09           .39         .17 

2600 

K  Hydrae 

5-i 

9  35  30-738 

80.3 

+  2.8759+.  0009 

+  .006 

—  .0018      o 

.08           .39        .14 

9M37"74°- 


3574    4*"3  toioM; 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

ji'and  ioo  A(i' 

Prob.  Errors. 
S  Ep.  100  p.'  8  10 

Remarks. 

2551 

0             1                It 

—  71  10    2.82 

84.8 

//                      // 

—  15-633-'°4<5 

gg 

+    .07 

// 

+  .062+    2 

.14         .67      .22 

138  G  Carinae 

2552 

+  52    7  S9-46 

67.9 

-16.247-.  351 

+    -33 

-•549+   9 

.03         .13      .06 

ft  1071.    14*"  5"  180°,  slow 

2553 

-31  27    3.12 

73-3 

-15.  740-  .225 

+    .09 

-  .025       o 

.l6      I.O7      .42 

jDunlop.    8"  211° 

2554 

-31  26  56.03 

76.9 

-I5-745--225 

+    .09 

-  .030      o 

.12        .71      .26 

J9G  Antliae  f1 

2555 

+  11  4433-64 

62.5 

-15.806-  .286 

+    .16 

-.087+   i 

.06        .24     .13 

2556 

+  10    9  24.06 

60.2 

-15.  744-  .285 

+    .16 

-  .023       o 

.08        .36     .19 

6  Leonis  h  * 

2557 

-51    441.00 

79.2 

-15.717-.  178 

+    .05 

+  .009      o 

•15      -73    -27 

141  G  Velorum 

2558 

—  40    i  44.06 

80.8 

—  15.664—  .205 

+    .07 

+  .066+  2 

.08      .40    .14 

Copeland  3*^-S™^  o"8  257° 

2559 

-   04437.37 

80.0 

-15.756-  .270 

+    .14 

—  .019      o 

.08      .36    .13 

32  Hydrae  r2 

2560 

-31  25  50.99 

79.2 

-15.  741-.  224 

+    .09 

+  .016      o 

.12        .58     .22 

10  G  Antliae  £2 

2561 

+  36  55  48.72 

65-9 

-15.808-  .326 

+    .24 

-  -045      o 

.11         .47      .23 

9  Leonis  Min 

2562 

-57  55  20-41 

88.7 

-15.  742-.  150 

+    .04 

+  .027+  I 

.15        .97      .26 

143  G  Cannae 

2563 

—  80  21  17.78 

82.4 

-15.644+.  178 

+    .50 

+  .126+  5 

.09        .58      .18 

2564 

-18  57  32.01 

97.6 

-15.  789-  .244 

+    .11 

—  .008      o 

.14      1.03      .19 

156  G  Hydrae 

2565 

+  52  2946.44 

50.2 

-15.840-.  364 

+    -33 

-.044+   i 

•  ii      -33    -23 

26  Ursae  Maj 

2566 

+  36  50  29.80 

76.1 

-15-829-  .324 

+    -24 

—  .027      o 

.05         .21      .09 

10  Leonis  Min 

2567 

-S^SS  35-40 

77-5 

-15.803-.  156 

+    .04 

+  .004      o 

-09         -43      -I? 

144  G  Velorum  N 

2568 

—  40  12  25.03 

85-3 

-15.835-.  206 

+    .07 

—  .019      o 

.IO         .49      .l6 

143  G  Velorum 

2569 

-  20  40  23.25 

89.8 

-15.832-.  240 

+     .10 

—  .002      o 

.08         .80      .18 

2570 

+  40    3  55.29 

60.7 

-15.842-.  329 

+    -25 

.000      o 

.12        .46     .26 

2571 

-22   25   19.27 

91.4 

-I5-790-  -237 

+     .10 

+  .054      o 

.14      I.I9     .26 

162  G  Hydrae 

2572 

-   5  28    6.77 

67.2 

-15-937-  -260 

+  -13 

-.057       o 

.09        .37      .18 

33  Hydrae  A 

2573 

+  36   15  44.74 

64.0 

—  16.152—  .310 

+  .24 

-.266+  5 

.07         .30     .16 

1  1  Leonis  Min 

2574 

-62   2045.93 

85-4 

-15.873-.  127 

+   .04 

+  .017      o 

.14        .85      .25 

145  G  Cannae  * 

2575 

-4833  38.30 

80.8 

-15.898-.  184 

+  .06 

+  .014      o 

.13        .64     .23 

145  G  Velorum  * 

2576 

+  1449  33-°8 

64.4 

—  15.940-  .284 

+  .17 

—  .014      o 

.08        .30     .l6 

7  Leonis 

2577 

-5048  36.23 

79-9 

-15.959-.  176 

+  .06 

—  .019      o 

.14        .73      .26 

146  G  Velorum  L 

2578 

+  31  36  35.90 

80.5 

-15.988-.  309 

+     .22 

—  .042      o 

.11         .42      .I? 

2579 

-72  38  .14.39 

85.8 

-15.960-  .034 

+     .09 

—  .010+    I 

.12         .63      .19 

146  G  Carinas  H 

2580 

+  1653    9.25 

71.8 

—  16.004—  .285 

+     .18 

—  .019      o 

.08         .34      .15 

8  Leonis 

2581 

-5847    1.44 

76.6 

-15.975-.  146 

+     .04 

+  .OI  I          0 

.IO         .44      .l8 

147  G  Carinae  h 

2582 

+   7  17    2-7i 

58-4 

—  16.013—  .271 

+     .16 

—  .007      o 

.07         .26      .15 

10  Leonis  (i  Sextantis) 

2583 

+  25    7  10.59 

67.2 

-16.043-.  294 

+     .20 

—  .027+  I 

.07         .32      .16 

9  Leonis 

2584 

+  4041  19.33 

76.1 

—  16.023-.  323 

+     -25 

—  .007      o 

.07         .29      .12 

42  Lyncis 

2585 

-245056.88 

88.2 

—  16.007—  .229 

+     .10 

+  .030      o 

.12      I.  II      .27 

1  6  G  Antliae 

2586 

+  1447  56.32 

77.1 

-16.135-.  279 

+     .18 

-  -095      o 

.11         .35      .16 

ii  Leonis 

2587 

-31  4344-55 

76.8 

—  16.079—  .219 

+     .09 

—  .024      o 

.10      .47    .18 

17  G  Antliae 

2588 

-   8  58  29.64 

71.8 

-16.053-.  250 

+     -13 

+  .007       o 

.08         .31      .14 

34  Hydrae 

2589 

+  56    3.04 

66.0 

—  16.138—  .265 

+     .16 

-.063+  I 

.08         .31      .16 

2  Sextantis 

2590 

-48  5424.71 

81.2 

-16.053-.  179 

+     .06 

+  .023+  I 

.10        .65      .21 

148  G  Velorum  M 

2591 

+  69  4i  33-97 

79.2 

-16.170-  .445 

+     -63 

—  .071+  I 

.06        .40     .14 

2592 

+  7242  25.55 

68.7 

—  16.136—  .481 

+     .76 

-  -034      o 

.07         .24      .12 

27  Ursas  Maj 

2593 

-53  *3    6-01 

79.2 

—  16.131—  .166 

+     .05 

-.023+  I 

.14         .58      .23 

150  G  Velorum  * 

2594 

—  42  44  22.28 

87.1 

—  16.165—  .196 

+     .07 

—  .044      o 

.12         .59      .18 

151  G  Velorum  y 

2595 

-   o  41  19.77 

75-3 

—  16.226—  .258 

+     -IS 

—  .072       o 

.06         .27      .11 

2596 

-10    7    4.90 

72.1 

-16.163-.  245 

+     -13 

—  .001      o 

.11         .42      .19 

37  Hydrae 

2597 

+  39  24  26.37 

74.2 

-16.323-.  315 

+     -25 

-.147-  I 

.10      .32    .15 

S  1374.   9«o  3"  285°,  slow 

2598 

+  7935  43-97 

64.4 

—  16.214—  .625 

+  I.5I 

—  .024      o 

.12         .49      .25 

2599 

-10  1857.79 

7i-5 

—  16.196—  .245 

+     -13 

—  .006      o 

.08         .31      .14 

2600 

-13  52  42.77 

75-8 

—  16.209—  .240 

+     .12 

—  .016      o 

.07         .34      .14 

2573  h  4220- 


2593  Lowell. 


o"6  170°,  binary. 


io6 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.  and  100  A  p. 

Prob.  Errors, 
a  Ep.     100  |i    a  10 

M 

h    m         s 

S                        S 

S 

s 

//            a         n 

2601 

Br  1354 

5-6 

9  35  48.706 

68.0 

+  3-7321--  0338 

+  .008 

—  .005  1       o 

.14        .50      .25 

2602 

o  Leonis 

3-7 

35  48.865 

72-5 

+  3.2061—  .0092 

+  .005 

—  .0098       o 

.03        .18      .07 

2603 

Br  I3S7 

6-5 

35  53-374 

66.8 

+  3.4611—  .0196 

+  .005 

—  .0009       o 

.12            .48         .24 

2604 

L39»7 

4.6 

36  34-850 

79-4 

+  1.6626—  .0001 

+  .002 

—  .0047       o 

.14            .70         .26 

2605 

Lai  19034 

4-9 

36  43-22° 

93-2 

+  2.7370+.  0039 

+  .006 

—  .001  1       o 

.10        .92       .18 

2606 

£  Chamasleontis 

5-3 

36  49-947 

78.3 

—  1.6117—  .2984 

-•659 

-.0173-    7 

.06            .54         .l8 

2607 

L  3990 

5-4 

37  37-757 

86.5 

+  1.8439+.  0038 

+  .006 

—  .0061—    i 

.15            .82          .24 

2608 

Br  1365 

5-8 

37  41.603 

76.6 

+  3.5270-  .0231 

+  .006 

—  .0021       o 

.11             .50         .20 

2609 

Lai  19093 

5-2 

37  43-637 

94-o 

+  2.  7051  +  .0041 

+  .007 

—  .0298      o 

.10         1.  08         .20 

2610 

L3992 

6.0 

37  52-438 

92.6 

+  1.8958  +.0048 

+  .007 

+  .0105+  I 

.18         1.23          .28 

2611 

Br  1355 

6.7 

38  14.007 

78.5 

+  4.6683-.  1073 

+  .056 

—  .0010—    I 

•07        -34      -13 

2612 

\l/  Leonis 

5-8 

38  I7-I95 

71.2 

+  3.2722-.OII5 

+  .005 

—  .0002      o 

.08        .33      .15 

2613 

L3983 

6.7 

38  28.224 

89.8 

+  2.  5291  +  .0070 

+  .008 

—  .0005      o 

.14      1.08      .26 

2614 

Br  1364 

5-4 

39  26.944 

67-5 

+  4-2843-.  0735 

+  .030 

+  .0005      o 

.12        .32      .18 

2615 

0  Antliae 

5-i 

39  44.616 

83.0 

+  2.  6714+.  OO52 

+  .007 

-  .0045      o 

.10        .52      .17 

2616 

L3998 

6-7 

39  54-059 

77-5 

+  2.i297  +  .oo77 

+  .009 

—  .0032      o 

.15        .86      .32 

2617 

Br  1363 

7.2 

39  54.890 

73-9 

+  4.6070—  .1044 

+  .055 

—  .0180      o 

.09        .40      .17 

2618 

«  Leonis 

3-i 

40  10.598 

72-5 

+  3.4140-  .0179 

+  .005 

—  .0030      o 

.02        .14      .06 

2619 

L  4003 

5-8 

40  18.549 

87-5 

+  2.  03  1  4  +.0068 

+  .008 

-.0095-  I 

.20        .86      .27 

2620 

Br  1367 

7.2 

40  18.790 

79.1 

+3.  8586-  .0426 

+  .OI2 

+  .0056—     2 

.10        .32      .14 

2621 

Abo  205 

6.2 

40  53-577 

72.8 

+  3.1689—  .0076 

+  .005 

+  .0007      o 

.09        .51      .21 

2622 

Br  1370 

6.1 

41    0.147 

68.5 

+3.2369—  .0102 

+  .005 

—  .OOI  I         O 

.09        .39      .19 

2623 

Pi  171 

5-9 

41  14-031 

90.9 

+  3-0987-  -0053 

+  .005 

-  .0035      o 

.13        .56      .16 

2624 

Br  1372 

6.6 

42    3-4I3 

76.1 

+  3.2293—  .0100 

+  .005 

-  .0043      o 

.11        .33      .16 

2625 

Pi  173 

7-9 

42    6.720 

85-3 

+  3.3700-  .0157 

+  .005 

+  .0063      o 

.10        .39      .14 

2626 

Br  1369 

5-3 

42    8.500 

64-4 

+  3.  8902  -.0444 

+  •013 

+  .0213-  3 

.08        .28      .15 

2627 

R  Leonis 

Var. 

42  10.823 

67.4 

+  3-23I3--01°o 

+  .005 

—  .0003      o 

.10        .57      .26 

2628 

L  4033 

Var. 

42  29.937 

79.8 

+  1.6472—  .0002 

+  .OO2 

—  .0032      o 

.12            .54         .20 

2629 

L  4022 

6.0 

42  36-4i6 

90.2 

+  2-3357  +  -0086 

+  .009 

—  .0010      o 

.14            .80         .21 

2630 

L  4016 

7.8 

42  42.223 

93-4 

+  2.4690+.  0080 

+  .008 

+  .0039      o 

.14            .99         .22 

2631 

Br  1376 

7-3 

43  14-562 

70.9 

+  2.9808—  .0014 

+  .005 

—  .0022      o 

.12            .56         .25 

2632 

v  Ursae  Maj 

3-8 

43  52.972 

73-9 

+  4.3045  -.0809 

+  .037 

-.0380+  3 

.03            .l6         .07 

2633 

Br  1374 

7.0 

44    5-445 

67.0 

+  3.7024-  .0338 

+  .OIO 

+  .OOI2         O 

.11             .46         .23 

2634 

Br  1377 

6.2 

44  14-374 

59-5 

+  3-3654-  -0160 

+.005 

—  .003  i      o 

.13            .44         .26 

2635 

«  Cannae 

2.9 

44  36-125 

71.4 

+  1.5009—  .0047 

-.003 

—  .0031       o 

.08            .36         .16 

2636 

Br  1380 

6.4 

45  17-904 

75-8 

+3.1248—  .0064 

+.005 

—  .0099      o 

•09            -32          -14 

2637 

<£  Ursae  Maj  m 

4.6 

45  18.318 

66.0 

+4.1124—  .0630 

+  .025 

.0000      o 

.O?              26         .13 

2638 

Br  1379 

7-i 

45  26.498 

86.8 

+  3.  2330-  .0102 

+.005 

—  .0009      o 

.13            .44         .16 

2639 

Br  1381 

6.9 

45  37-339 

7i-5 

+  3.2520—  .0109 

+.005 

+  .0017      o 

.14            .58         .27 

2640 

L4047 

5-4 

46    4.142 

83-4 

+  2.3252  +  .OO9I 

+  .OIO 

—  .0030      o 

.18            .94         .31 

2641 

Br  1385 

6.2 

46  n.688 

88.1 

+  3.0246—  .0025 

+  .005 

+  .0009      o 

.05            .48         .12 

2642 

Br  1382 

5-4 

46  12.527 

78.2 

+  3.4149-  .0185 

+  .006 

+  .OOII—     I 

.08            .36         .14 

2643 

v  Chamaeleontis 

5-4 

46  17.618 

88.0 

+0.0538-.  1023 

-.171 

+  .0038-   3 

.20            .94         .29 

2644 

Br  1378 

7.0 

46  18.095 

68.4 

+3.6511-.  0316 

+  .009 

—  .0044      o 

.13            .46         .23 

2645 

v  Hydrae 

4-3 

46  40.070 

73-9 

+  2.  8850  +.001  6 

+.006 

+  .0009      o 

.10        .38      .17 

2646 

L  4046 

8.6 

46  40.397 

90.0 

+  2.  63  2  1  +  .OO68 

+.008 

+  .0017      o 

.14      1.  10      .26 

2647 

Br  1386 

6.2 

47    2.680 

70.4 

+  3-0975-  -0054 

+  .005 

—  .0122       o 

.10        .36      .17 

2648 

H  Leonis 

4.1 

47    4-669 

72.6 

+  3.4208—  .0196 

+  .006 

—  .0163       o 

.03      .18     .07 

2649 

L  4055 

5-7 

47  27-397 

85.0 

+  2.  3  1  89  +.0093 

+  .OIO 

—  .0041       o 

.20      1.16      .35 

2650 

Br  1389  m 

5-3 

9  47  33.404 

73-5 

+  2.9702—  .0009 

+.006 

-  .0043       o 

.12            .44         .21 

2628. 


3*7  to 


2637  OS  208.    sfi-sfj  <  o'.'s,  binary,  100  yrs.  ±. 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


I07 


Ho. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

p/andioo  A(i 

Prob.  Errors. 
SEp.  loop'  Sio 

Remarks. 

2601 

O           /               It 

+  40  12  49.36 

63-2 

n                n 

-16.258-  .313 

// 

+  .25 

// 
—  .049      o 

/'         ft       ff 

.11         .37      .20 

43  Lyncis 

2602 

+  10  20  50.27 

71-3 

—  16.248—  .267 

+  •17 

-.039+   i 

.03         .15      .06 

2603 

+  26  22      4.70 

68.8 

—  16.260—  .290 

+  .20 

-  .047      o 

.11         .45      .22 

13  Leonis 

2604 

—  60  52  30.91 

76.2 

-16.229-.  135 

+  .04 

+  .019      o 

.11         .51      .20 

150  G  Cannae  m 

2605 

-23    8  12.52 

94-3 

—  16.248—  .226 

+  .10 

+  .007      o 

.11      I.  II      .21 

174  G  Hydrae  7 

2606 

-802931.17 

79-3 

—  16.254+.  146 

+.46 

+  .007+_..2L 

.06         .48      .l6 

2607 

-57  3i  43-52 

82.4 

-16.307-.  149 

+.05 

—  .005      o 

.11         .55      .19 

152  G  Carinas 

2608 

+  30  26    3.12 

73-8 

—  16.414—  .292 

+  .21 

—  .109      o 

.10      .38    .17 

15  Leonis/ 

2609 

-  23  28    0.54 

92-7 

—  l6.07I—  .220 

+  .10 

+  .236+     2 

.12        .99     .21 

175  G  Hydras 

2610 

-5648  11.19 

90.7 

-16.366-.  154 

+  .05 

—  .052—    I 

.14      1.03      .24 

153  G  Carinae 

2611 

+  64    648.56 

71.6 

-16.375-  .388 

+  .47 

-  .043      o 

.06        .24     .11 

28  UrsaeMaj 

2612 

+  14  28  44.91 

68.2 

-16.349-  .270 

+  .18 

—  .014      o 

.08        .33      .16 

2613 

-35    241.56 

81.6 

—  16.344-1-  .2O6 

+  .09 

.000      o 

.16    1.00    .33 

22  G  Antliae 

2614 

+  57  35  14-06 

65-9 

-16.369-  .352 

+  -38 

+  .025      o 

.11         .25      .16 

2615 

—  27  18  42.06 

80.7 

-16.385-  .216 

+  .10 

+  .023      o 

.09        .41      .15 

2616 

—  50  46  ii.  21 

75-8 

—  l6.4l8—  .171 

+  .06 

—  .002         0 

.13        .65      .26 

153  G  Velorum 

2617 

+  63  42  45.39 

78.0 

-16.567-.  377 

+  .46 

-.150+    2 

.09        .44     .17 

2618 

+  24  14    4.93 

69-5 

-16.454-.  278 

+  .20 

—  .024      o 

.02        .14     .06 

2619 

-53  25  59-97 

80.0 

—  16.428—  .162 

+  .05 

+  .009+  I 

•IS      -59    -23 

154  G  Velorum  O 

2620 

+  45  34  43-67 

74-2 

—  16.580—  .316 

+  .28 

-.143      o 

.10      .29    .14 

14  Leonis  Min 

2621 

+   7  10  12.36 

68.9 

-16.505-.  256 

+  .16 

-  -039      o 

.08      .42    .19 

2622 

+  12  16  14.26 

65-3 

—  16.468—  .262 

+  .17 

+  .004      o 

.08      .36    .18 

1  8  Leonis 

2623 

+     2    14  52.77 

84.0 

-16.529-.  250 

+  -i5 

—  .046      o 

.11      .42    .16 

2624 

+  12      150.71 

71.6 

—  16.521—  .259 

+  •17 

+  .003      o 

.10      .32    .16 

19  Leonis 

2625 

+  21    4    3-43 

78.4 

-16.543-  .272 

+  .19 

—  .016      o 

.08      .30    .13 

2626 

+  46  29  13.10 

60.9 

—  16.627—  .316 

+  .29 

—  .099—     2 

.07      .26    .15 

15  Leonis  Min 

2627 

+  11  53  34.16 

68.0 

-16.563-.  259 

+  •17 

-•°33      o 

.09      .58    .26 

Bri373-  S^toio1* 

2628 

—  62    247.47 

77-2 

—  16.525—  .128 

+  .04 

+  .O2  1         O 

.09      .42    .17 

157  G  Carinae  /  * 

2629 

-44  17  33-53 

84-3 

-16.551-.  185 

+  .07 

.000      o 

.11      .51    .17 

157  G  Velorum 

2630 

-38  51  39.11 

90.4 

—  16.651—  .196 

+  .08 

-  -095      o 

.15        .84     .22 

2631 

-   6  46  53.25 

68.8 

—  16.603-  .237 

+  .14 

—  .021      o 

.IO        .40     .19 

3  Sextantis 

2632 

+  593°33-°4 

64.1 

-16.773-  .341 

+  •39 

-•159+  3 

.04        .16     .08 

O552I.    I2MIl"295° 

2633 

+  40    5  49.91 

58.2 

—  16.631-.  295 

+  •25 

—  .007      o 

.11         .39     .23 

1  6  Leonis  Min 

2634 

+  21  3843.23 

58-4 

—  16.654—  .266 

+  .19 

-  .023       o 

.12        .48     .28 

20  Leonis 

2635 

-643628.83 

7i-3 

-16.643  -.114 

+  .04 

+  .006      o 

•°7      -33    -15 

h  4252.    7*5  5"  "6° 

2636 

+   4  48  42.38 

71.0 

-16.747-  .245 

+  .16 

—  .064+  i 

.07         .26      .12 

4  Sextantis 

2637 

+  5431  53.64 

62.6 

-16.674-.  325 

+  -34 

+  .009      o 

.07         .25      .14 

02  208  * 

2638 

+  12  18  34.21 

78.4 

—  16.696—  .254 

+  •17 

—  .006      o 

.12        .36     .17 

21  Leonis 

2639 

+  1332    0.91 

66.0 

-16.725-.  255 

+  .18 

—  .027      o 

.12         .47      .24 

23  Leonis 

2640 

-45  1557-74 

76-5 

—  16.732—  .180 

+  .07 

—  .012      o 

.13         .64      .25 

1  60  G  Velorum  « 

2641 

-   34628.85 

85.2 

—  16.756—  .236 

+  .14 

-  .030      o 

.06      .35    .10 

6  Sextantis 

2642 

+  2452    6.45 

73-8 

—  16.920—  .267 

+  .20 

-.193      o 

.07         .30      .13 

22  Leonis  g 

2643 

-761835.38 

81.3 

—  16.792  +  .002 

+  .14 

—  .061      o 

.15         .63      .24 

2644 

+  3823    1.18 

61.7 

—  16.761—  .286 

+  .24 

-  .030      o 

.11        .40     .22 

17  Leonis  Min 

2645 

—  14  22  38.92 

72.7 

—  16.776—  .224 

+  .12 

—  .027      o 

•°9      -33    -15 

39  Hydras  v1 

2646 

-31      230.85 

84.4 

—  16.724—  .204 

+  .09 

+  .025       o 

.15     .91    .28 

2647 

+  2  55  14.14 

63-7 

-16.677-  .239 

+  .16 

+  .090+  I 

.08      .30    .16 

7  Sextantis 

2648 

+  26  2840.55 

73-9 

—  16.832—  .265 

+  .20 

-.063+  I 

.03       .19    .08 

2649 

-45  4333-95 

81.7 

-16.768-.  178 

+  .07 

+  .019      o 

.15      .88    .29 

162  G  Velorum 

2650 

-   7  38    2.86 

76.2 

-16.833-.  229 

+  .14 

—  .041       o 

.10      .38    .16 

8  Sextantis  * 

2650  Clark. 


<  i",  binary,  100  yrs.  ±. 


io8 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.  and  100  A  p 

Prob.  Errors. 
aEp.     zoo  (i    a  10 

• 

h    m         s 

s              s 

s 

s 

It                 /r               n 

2651 

L4057 

4-5 

9  47  48.855 

86.7 

+  2.3I29+.0093 

+  .OIO 

—  .0027      o 

.14      1.08      .29 

2652 

L  4061 

5-9 

48    5.016 

93-1 

+  1.8634  +.005  2 

+  .007 

—  .0003—    I 

.21      1.18      .29 

2653 

L  4066 

5-7 

48    6.908 

85.2 

+  i.687i  +  .ooi2 

+  .004 

—  .0013      o 

.18        .86      .28 

2654 

Br  1390 

7.2 

48  53.109 

73-8 

+  3.1389—  .0066 

+  .005 

—  .0021      o 

.11        .32      .16 

2655 

Br  1387 

5-4 

49  ".434 

75-4 

+  3.94I3-  -°5l8 

+  .019 

-.0005      o 

.10         .36       .16 

2656 

Pi  187 

6.2 

49  27.086 

83.2 

+  5.4684—  .2208 

+.225 

—  .0148+    2 

.04        .36      .10 

2657 

L  4059 

5-i 

49  40-397 

82.7 

+  2.  7  145  +  .0053 

+.008 

—  .0152      o 

.12            .66         .21 

2658 

Paris  12190 

5-3 

50    9.216 

9°-3 

+  2.8302  +  .0032 

+  .007 

—  .0016      o 

.10         .90       .20 

2659 

L  4070 

6.1 

50  10.103 

81.3 

+  2.  1957  +  .0096 

+  .OIO 

—  .OOI  I         O 

.18        .88      .31 

2660 

Pi  201 

6.2 

50  15.400 

63.6 

+  4.2182—  .0748 

+.036 

+.0034-  I 

•  15        -56      -3° 

2661 

L  4068 

6.0 

50  21.269 

82.1 

+2.3586+.  0097 

+  .OIO 

—  .0021       o 

.16      1.02      .33 

2662 

Br  1391 

6.8 

So  39.56i 

80.6 

+3-5309-  .0254 

+.008 

—  .0031      o 

.11        .39      .16 

2663 

Br  1393 

6.2 

5i    7-93° 

71-5 

+3.1843-  .0085 

+.006 

—  .0061       o 

.10        .38      .18 

2664 

L  4075 

6.0 

51    8.090 

83.8 

+2.2253  +.0097 

+  .OII 

-r  .0048         O 

.20      i  .00      .33 

2665 

Br  1392 

5-2 

Si  33-7I7 

80.5 

+3.6913-  .0357 

+  .012 

—  .0102      o 

.05        .28      .10 

2666 

L  4077 

6.1 

52  13.428 

88.1 

+  2.  6l62+.  0078 

+  .009 

+  .OQ2I         O 

.15        .88      .24 

2667 

L  4139 

6.8 

52  29.112 

85-5 

—  0.7717—  .2092 

—  .461 

—  .0024+     I 

.18        .75      .26 

2668 

Br  1383 

7.2 

52  38-963 

79-5 

+  5.733I-.  2685 

+.324 

-.0149+  3 

.08        .45      .16 

2669 

L  4085 

6.7 

52  40.834 

78.1 

+  2.  2053  +  .0099 

+  .011 

—  .0009       o 

.20      i.  02      .38 

2670 

Br  1394 

7-7 

52  45-571 

66.9 

+  3.2679—  .OI2I 

+.006 

—  .0024      o 

.10        .38      .19 

2671 

Br  1396 

6-4 

52  49.802 

69.2 

+  3.l8l8-  .0082 

+.006 

+  .0006      o 

.12            .44         .21 

2672 

v  Leonis 

5-5 

52  50.662 

67.8 

+  3^2318—  .0105 

+.006 

—  .00.21          O 

.07            .28         .14 

2673 

Groomb  1594 

5-8 

52  58.878 

73-4 

+  4.1636-  .0721 

+.035 

-  .0039       o 

.13            .40        .20 

2674 

<t>  Velorum 

3-5 

53  21.075 

80.6 

+  2.IOIO+.OO94 

+  .OII 

—  .0025      o 

.09           -SI         -17 

2675 

Pi  221 

6.0 

53  50-246 

85.2 

+3-4703-  .0227 

+.008 

—  .0377      o 

.12            .48         .17 

2676 

L  4092 

6.7 

53  52-405 

92.2 

+2.2954+.  0103 

+  .OIO 

—  .0024      o 

.13            .90        .21 

2677 

L  4089 

7-7 

54  14-500 

88.7 

+  2.6885  +.0068 

+  .008 

—  .0002      o 

.14           .98         .25 

2678 

Pi  223 

6.9 

54  31-864 

80.2 

+3.1143-  .0057 

+  .006 

—  .0050      o 

.08           .51         .I? 

2679 

17  Antliae 

5-3 

54  34-8i5 

85-5 

+  2.5703  +  .0085 

+  .009 

—  .0076      o 

.IO           .62         .18 

2680 

IT  Leonis 

S-o 

54  55.778 

76-3 

+3.1740—  .0080 

+  .006 

—  .0023       o 

.03            .16         .06 

2681 

Br  1397 

5-8 

55  14-867 

67.1 

+3.4709-  .0249 

+.008 

—  .0409      o 

.08           .30        .15 

2682 

Pi  230 

5-8 

57  H-493 

67.4 

+3-3526-  .0165 

+  .007 

—  .0013      o 

.11            .63         .29 

2683 

Pi  232 

7.2 

57  42-317 

71.8 

+  2.  9098  +.001  5 

+  .007 

—  .0079       o 

.13            .58         .26 

2684 

Pi  229 

6.0 

57  57-78i 

64.0 

+4.0175—  .0622 

+  .029 

—  .0017      o 

.13           .54         .28 

2685 

Br  1400 

6.7 

58  57-613 

58.3 

+3.1106—  .0056 

+.006 

-.0052      o 

.11             .38         .22 

2686 

Lai  19684 

7.2 

59  i5-42i 

02.7 

+2.8579+.  0034 

+.008 

—  .OOI  I         O 

.13          1.24         .16 

2687 

Dpt  1175 

6.4 

59  16.922 

98.7 

+2.8590+.  0034 

+  .007 

.0000      o 

.12        .68      .14 

2688 

L  4126 

6.1 

9  59  43-797 

89.8 

+  2.  7668  +.OO55 

+  .008 

—  .0102       o 

.12          I.I7          .27 

2689 

L  4i3S 

6-5 

10    o  10.955 

91.9 

+  2.5i95  +  .oioi 

+  .OIO 

—  .0029      o 

.14            .93          .22 

2690 

Br  1402 

4.8 

o  15-295 

83.6 

+  2-92IO+.OOI5 

+  .007 

—  .0025      o 

.06        .33      .10 

2691 

L  4143 

7-i 

i  16.764 

83-6 

+  2.6811  +  .0078 

+  .009 

—  .0029      o 

.12            .69         .22 

2692 

Br  1401 

4-5 

i  31.996 

72.0 

+  3-55I9--°284 

+  .OIO 

+  .0044      o 

.09            .36         .l6 

2693 

Br  1404 

6-5 

i  33-694 

78.8 

+3.1406—  .0066 

+  .006 

—  .0023      o 

.10        .38      .15 

-*694 

77  Leonis 

3-5 

i  52.916 

75-o 

+  3.  2768-  .0129 

+  .006 

—  .0001       o 

.04           .21         .08 

2695 

L4I58 

5-3 

2  I3-679 

85-5 

+  2.3740+.  01  16 

+  .OI2 

+  .0032      o 

.15         1.  06         .30 

2696 

Br  1405 

4.6 

2  35-868 

68.8 

+  3.  1872-  .0090 

+.006 

—  .0064       o 

.09            .50         .22 

2697 

Br  1407 

4.6 

2  49.181 

75-3 

+  3.0718-  .0037 

+  .006 

—  .0019       o 

.11             .52         .21 

2698 

a  Leonis 

1.2 

3    2.854 

66.6 

+  3.1996—  .0100 

+  .006 

—  .0169      o 

.02            .11          .05 

2699 

juChamaeleontis 

5-7 

3  24.222 

78.1 

—  1.4240—  .3466 

-•979 

-.0173-   6 

.06            .56         .19 

2700 

Br  1409 

7.0 

10    4    0.500 

70.2 

+  3.  1471-  -0069 

+  .006 

—  .0009       o 

.11             .52         .23 

2661  Dunlop.    Si's  S'.'S  *37°- 


2686-7     21"  274°;  0  1072.    6«I-I2M  n"  44° 


CATALOGUE  OF  6 1 88   STARS  FOR   IQOO 


109 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3<t 

n'andiooA|i' 

Prob.  Errors. 
SEp.  100  p'  Sio 

Remarks. 

2651 

o        '           " 

-46    443-S2 

83.8 

It                   ft 

-16.831-.  177 

+  .07 

—  .027      o 

tt             n           n 
.12         .80      .24 

163  G  Velorum  m 

2652 

-5857  i9-7i 

86.2 

-16.873-.  141 

+  .05 

-  .057      o 

•i?      -75    -25 

161  G  Carinae 

2653 

—  62  16  34.72 

78-5 

—  16.817—  .127 

+  .04 

+  .OOI         O 

•13      -59    -23 

162  G  Carinae 

2654 

+  S  24  59-2S 

66.6 

—  16.848—  .240 

+  .16 

+  .007      o 

.09     .27    .15 

9  Sextantis 

2655 

+  5°  i?  3i-39 

66.8 

-16.852-.  303 

+  -3i 

+  .017      o 

.09     .27    .15 

31  UrsaeMaj 

2656 

+  73  2I  l8-34 

84-7 

—  16.928—  .422 

+  -74 

-.047+  I 

.04     .31    .09 

Groomb  1586 

2657 

-25  27  42.78 

82.4 

—  16.836—  .205 

+  .10 

+.056+  I 

.12         .71      .23 

181  G  Hydras 

2658 

-1832    7.92 

87.6 

—  16.960—  .214 

+  .12 

-  -045       ° 

.10      .95    .24 

183  G  Hydras 

2659 

—  50  40  28.34 

80.8 

—  16.929—  .164 

+  .07 

—  .014      o 

.14    .79  .27 

165  G  Velorum 

2660 

+  57  S3  39-55 

58.0 

-16.981  -.323 

+  •37 

—  .062      o 

.13    .47  .28 

2661 

—  44  48  39.61 

79.6 

-16.929-.  177 

+  .08 

—  .005      o 

.12        .71      .25 

166  G  Velorum  * 

2662 

+  32  51  29.24 

75-2 

—  16.939—  .268 

+  .22 

—  .001      o 

.10      .34    .16 

1  8  Leonis  Min 

2663 

+  9  24  25.18 

69.9 

-16.953-.  240 

+  •17 

+  .007      o 

.10      .39    .18 

2664 

-49  46  14.25 

77-9 

-16.956-.  165 

+  .07 

+  .004      o 

•IS      -69    -27 

167  G  Velorum 

2665 

+41  31  54.47 

74-9 

—  17.017—  .278 

+  .26 

-.037+  I 

.05      .26    .11 

19  Leonis  Min 

2666 

-32  56  37-76 

79.8 

-16.994-.  195 

+  .10 

+  .017      o 

.15     .81   .29 

36  G  Antliae 

2667 

-7935  21-69 

84.6 

—  16.999  +.067 

+  .28 

+  .024      o 

.14         .64      .22 

18  G  Chamaeleontis 

2668 

+  75  H  2°-74 

78.6 

-17.065-.  432 

+  -85 

-•034+  I 

.08         .39      .15 

2669 

-SOS1  38-9! 

75-o 

—  17.063—  .162 

+  .07 

—  .031      o 

.14         .69      .28 

169  G  Velorum 

2670 

+  15  4i  53-75 

63-1 

—  17.060—  .244 

+  .18 

—  .024      o 

.08         .32      .I? 

26  Leonis 

2671 

+  8  47  28-So 

63.8 

-17.073-.  237 

+  -I7 

-  -034      o 

.11         .39      .21 

2672 

+  12  55  18.34 

60.7 

—  17.069—  .241 

+  .18 

—  .029      o 

.06         .25      .14 

2673 

+  57  17  24.86 

73-2 

-17.089-  .312 

+  .36 

-  -043     ° 

.11         .33      .16 

2674 

-  54    5  3°-44 

76:6 

-17.069-.  153 

+  .06 

—  .006      o 

.08         .38      .15 

2675 

+  30    7  27.72 

76.2 

-i7.i35-.257 

+  .21 

—  .050+  I 

.10      .39    .17 

2676 

-47  56  13-54 

89.2 

-I7.n8-.i68 

+  .07 

-  -031       o 

.11      '.65      .I? 

173  G  Velorum 

2677 

-284936.15 

85.8 

-17.096-.  197 

+  .10 

+  .008       o 

.15        .97      .28 

2678 

+  3  5i  45-85 

7i-3 

—  17.105—  .229 

+  .16 

+  .OII         0 

.09         .45      .20 

12  Sextantis 

2679 

-35  2444-24 

80.6 

—  17.146—  .187 

+  .10 

—  .027+  I 

.10      .56    .19 

2680 

+  8  31  26.50 

73-8 

-17.  162-.  233 

+  -I7 

—  .027       o 

.03         .I?      .07 

2681 

+  32  24  55.65 

67.6 

-17.591-.  252 

+  .22 

--44I+  3 

.06         .28      .13 

20  Leonis  Min 

2682 

+  22  25  53.35 

67-9 

—  17.258—  .242 

+  .19 

—  .019      o 

-09      -53    -24 

2683 

-12  48  53.10 

74-6 

—  17.248—  .208 

+  •13 

+  .012+     I 

.12      .55    -23 

2684 

+  54  22  31.83 

56-4 

—  17.282—  .290 

+  •33 

—  .on      o 

.n      .45    .26 

2685 

+  3  41  16.10 

62.4 

-I7.4I5-.22I 

+  .16 

—  .100      o 

.10        .38     .21 

13  Sextantis 

2686 
2687 

-  17  37    °-96 
-1737    2.24 

OI.O 

82.2 

-17.334-  .202 
-17.339-  .202 

+  .12 
+  .12 

—  .006      o 
—  .009      o 

.14     1.  12      .17 
•12        -35      -IS 

1  192  G  Hydrae  * 

2688 

-2348    5.61 

88.3 

-17.327-.  194 

+  .11 

+  .022+     I 

.10      1.  12      .26 

193  G  Hydras 

2689 

-39  29  27.34 

90.4 

-17.389-.  176 

+  .09 

—  .020       o 

.14         .98      .24 

43  G  Antliae 

2690 

-12  34  46.99 

80.  i 

-17.360-  .205 

+  .14 

+  .OI2          0 

.06         .30      .11 

40  Hydras  u2 

2691 

-30  24  17.13 

78.1 

-  I7-443-  -l86 

+  .10 

—  .026      o 

.12         .6l      .23 

47  G  Antliae  * 

2692 

+  35  43  55-63' 

68.2 

-17.434-  .249 

+  -23 

—  .006      o 

.07         .31      .15 

21  Leonis  Min 

2693 

+  65  56.94 

72.8 

-17.444-  .219 

+  .16 

—  .015       o 

.08         .30      .14 

14  Sextantis 

2694 

+  17  15    i.oo 

71.1 

-17.455-.  228 

+  .18 

—  .012      o 

.04         .17      .08 

2695 

-46  52  52.60 

82.4 

-i7.525-.i63 

+  .08 

—  .067       o 

.12         .8l      .25 

182  G  Velorum  * 

2696 

+  10  29  15.65 

59-o 

-I7.542-.  220 

+  -I7 

—  .069      o 

.07         .29      .I? 

31  Leonis  A 

2697 

+  07    2.07 

73-8 

-I7.495-.  212 

+  •15 

—  .012       o 

•08         .34      .15 

15  Sextantis 

2698 

+  12  27  21.46 

6^.8 

-17.496-  .219 

+  •17 

-.003+  I 

.02         .IO      .05 

Regulus 

2699 

-81  43  50-51 

78.6 

—  17.478+.  no 

+  •44 

+  .030+  I 

.06         .47      .l6 

2700 

+  63939.45 

65.8 

-17.552-  .215 

+  .16 

-  .018      o 

.IO        .42      .21 

16  Sextantis 

8691  Hough.     12"  6"  43° 


2695  Innes.    8M  o'.'S  57°. 


no 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  TOR   1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i  and  100  A  p. 

Prob.  Errors. 
aEp.   loop  a  10 

M 

h  m    s 

8         9 

s 

s 

~'i      n     H 

2701 

Pi  254 

6.7 

10  457-3S6 

71.4 

+  3.6333-   ^SI 

+  .014 

—  .OOI  I    O 

.12     .60    .26 

2702 

L  4172 

S-i 

5  8.793 

91.4 

+  2.2693+  -OI23 

+  •013 

—  .OOIO    O 

.13     .78    .20 

2703 

Br  1410 

6.3 

5  9-4I3 

68.8 

+  2.9810—  .0002 

+  .007 

—  .OO2I    O 

.12     .48    .23 

2704 

L  4167 

6-5 

5  13-200 

87-7 

+  2.5812+  .0092 

+  .OIO 

-.0357-  2 

.12     .78    .21 

2705 

Capejo  1834 

5-6 

s  13-410 

92-5 

+  2.9233+  .0015 

+  .007 

—  .0089—  I 

.12     .82    .18 

2706 

X  Hydra 

3-8 

S  42-780 

72.1 

+  2.9244+  .0014 

+  .007 

-.0137   o 

.04     .22    .IO 

2707 

Brisb  2771 

5-4 

S  55-392 

85-9 

+  1.6732+  .0022 

+  .005 

—  .0102—  I 

.16   .86   .26 

2708 

Br  1413 

6.0 

5  57-483 

69.2 

+  2.9825—  .0002 

+  .007 

—  .OOIO    O 

.12     .45    .22 

2709 

L  4246 

7.0 

6  3.084 

86.2 

—  1.0041—  .2776 

--738 

--OI57-  5 

.15    .88   .26 

2710 

5  Cannae 

Var. 

6  10.709 

9i-3 

+  1.9094+  .0087 

+  .OII 

-.0113-  i 

.20   1.16   .29 

2711 

Br  1411 

6.7 

6  i5-59i 

65-6 

+  3-2325-  -0108 

+  .007 

+  -0033   o 

.IO     .44    .22 

2712 

Br  1414 

6-3 

6  18.073 

68.3 

+  2.9966—  .0006 

+  .006 

+  .0004   o 

.11     -SI    .24 

2713 

1,4185 

7-i 

7  22.834 

89-4 

+  2.6540+  .0094 

+  .OIO 

+  .0044   o 

.14   i.oo   .25 

2714 

Br  1417 

6.1 

7  36.121 

65-8 

+  3.1248—  .0060 

+  .006 

—  .0038   o 

.13   .42  .23 

27IS 

L  4342 

7.6 

8  41.07- 

77-8 

-  6.964-  -2.338- 

—  .048-  —  65 

.09   .84   .28 

2716 

L  4193 

6-5 

8  43-36o 

83-3 

+  2.7552+  .0071 

+  .009 

—  .0057   o 

.12     .70    .22 

2717 

Br  1419 

7-6 

8  45.987 

67.7 

+  2.9843—  .0004 

+  .007 

—  .0127   o 

.10   .36   .18 

2718 

L  4196 

6.7 

8  59.709 

82.8 

+  2.6473+  -0089 

+  .OIO 

—  .0280—  I 

.12     .75    .24 

2719 

Br  1420 

7-4 

9  9.369 

66.7 

+  2.9886—  .0002 

+  .007 

—  .0020   o 

•13   -5i   -25 

2720 

Br  1418 

6.8 

9  21.861 

66.8 

+3-4561-  -0243 

+  .OIO 

-  .0034   o 

.12     .51    .25 

2721 

L  4202 

6.0 

9  30-540 

86.7 

+2.5485+  .0113 

+  .OII 

—  .0066   o 

.18     .92    .28 

2722 

L  4206 

5-6 

931.181 

83-4 

+  2.3096+  .0131 

+  •013 

—  .0048—  I 

.18     .99    .32 

2723 

L  4212 

3-9 

10  32.270 

77-3 

+  2.5124+  .0118 

+  .OII 

—  .0140—  I 

.IO     .46    .18 

2724 

Br  1422 

5-6 

10  33-673 

71.9 

+  3.4191—  .0222 

+  .OIO 

—  .0051   o 

.IO     .40    .19 

2725 

L  4233  . 

5-4 

10  40.830 

89-3 

+  1.6961+  .0032 

+  .006 

—  .OO6O—  2 

.18     .98    .27 

2726 

Br  1415 

5-9 

10  46.611 

70.9 

+4.4099-  .1135 

+  .090 

-.0144+  2 

.06     .28    .13 

2727 

Br  1423 

6.7 

10  48.182 

81.6 

+  3.4110—  .0217 

+  .OIO 

-.0037   o 

.12     .56    .20 

2728 

Br  1424 

6.2 

II  0.126 

72.8 

+3.3296-  .0173 

+  .008- 

-.0152+  I 

.08     .32    .14 

2729 

X  Ursae  Maj 

3-4 

II  4.094 

72.0 

+3.6361-  .0381 

+  .017 

-.0149+  I 

•03     -15    -07 

2730 

£  Leonis 

3-4 

II  7.805 

78-7 

+3-3450-  -0174 

+  .008 

+  .0016   o 

.04     .21    .08 

2731 

Br  1426 

5-8 

II  18.719 

70.0 

+3.2255-  .0109 

+  .007 

—  .0016   o 

.09     .40    .18 

2732 

L  4222 

5-8 

II  19.714 

88.9 

+  2.5124+  .0123 

+  .OI2 

+  .0014   o 

.16   .88   .25 

2733 

a)  Carinae 

3-4 

II  21.637 

77-2 

+  1.4318—  .0076 

-.007 

-.0053-  I 

.09   .48   .18 

2734 

Br  1427 

6.1 

II  44-561 

70.7 

+  3-3083-  -OI7o 

+  .008 

—  .0298+  I 

•09    -34   -16 

2735 

Br  1428 

5-5 

12  39.647 

80.4 

+  2.9814   .0000 

+  .007 

—  .0108   o 

.07    .34   .12 

2736 

Pi  31 

7.0 

12  46.774 

78-5 

+  3.6712-  .0405 

+  .018 

+  .0054-  2 

.09    .46   .17 

2737 

Pi  26 

6.0 

13  26.128 

79-5 

+  4.6445—  .1468 

+  .142 

—  .0096+  I 

.09    .48   .17 

2738 

Pi  39 

5-8 

13  32.530 

79.0 

+  2.7453+  .0082 

+  .009 

—  _.OO2  1    O 

.11    .48   .18 

2739 

L  4249 

3-3 

13  44-511 

79-6 

+  1.9954+  .0114 

+  .014 

—  .Oo6l—  I 

.11    .57   .20 

2740 

Groomb  1638 

6.4 

14  3.207 

67.2 

+  3.9129—  .0622 

+  •034 

—  .0019   o 

.16    .58   .30 

2741 

Br  1431 

S-i 

14  17.645 

67-5 

+  3.2720—  .0146 

+  .008 

—  .0166   o 

.09    .32   .16 

2742 

y1  Leonis 

2-3 

14  27.638 

70.2 

+  3.3141-  .0150 

+  .008 

+  .0215—  I 

.03    .15   .07 

2743 

y2  Leonis 

3-8 

14  27.896 

78.2 

+  3.3141-  .0150 

+  .008 

+  .0215-  I 

.06    .48   .16 

2744 

Br  1430 

7-o 

15  4.382 

60.8 

+  3.6107-  .0365 

+.016 

—  .0001   o 

.13    .50   .28 

2745 

Br  1399 

5-6 

15  9.27- 

75-8 

+  9.419-  -1.508- 

—  .090-  +72 

.06    .28   .11 

2746 

Dpt  1197  m 

8.2 

15  18.301 

89.2 

+  3.1453-  .0068 

+  .007 

+  .0013   o 

.12     .57    .17 

2747 

L  4263 

4-5 

IS  5I-295 

78.0 

+  2.2477+  -OI45 

+  .015 

—  .0014   o 

.16   .66   .27 

2748 

Br  1435 

6.9 

15  52.174 

65.2 

+  3.1005-  .0046 

+  .007 

—  .0005   o 

.13    .54   .28 

2749 

L  4260 

5-7 

16  12.038 

87-3 

+  2.4418+  .0141 

+  .014 

+  .0009   o 

.15   1.24   .32 

2750 

Br  1433 

6.0 

o  16  13.987 

65-4 

+  3-5830-  -0355 

+.016 

—  .0109   o 

.11     .44    .22 

2710  L  4189.    6fo  to 


9722  189  G  Velorum.    (R)  in  B.  A.  C.,  etc. 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


III 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

p.'  and  loo  A  p.' 

Prob.  Errors. 
8Ep.  100  1»/  8  10 

Remarks. 

2701 

or            It 

+  41    9  11.28 

66.2 

tf                   ft 

-17.586-  .247 

+  •25 

—  .012      o 

.11       .46    .23 

2702 

-51  19  14.48 

86.8 

-17.587-.  151 

+  .07 

-  .005       o 

.10      .51     .16 

1  86  G  Velorum  Q 

2703 

-    755    i-n 

68.4 

—  17.586—  .201 

+  .14 

—  .004      o 

.10      .40    .19 

17  Sextantis 

2704 

-35  21  58.14 

83-3 

-17.585-  .171 

+  .10 

.000+  3 

.14      .98    .30 

49  G  Antliae 

2705 

—  12    19  l8.O4 

88.2 

+  .14 

—  .127+   i 

.11       .71     .19 

200  G  Hydrae 

2706 

-II   51  35.26 

76.2 

-17.699-.  195 

+  .14 

-.093+   i 

.05      .27    .10 

2707 

-63    1932.39 

86.5 

—  17.580—  .108 

+  .04 

+  •034+   i 

.14      .79    .23 

176  G  Carinae 

2708 

-   7  55  30.37 

70.0 

—  17.666—  .2OO 

+  .14 

-  .050      o 

.10      .40    .19 

1  8  Sextantis 

2709 

-81    443.26 

86.2 

-17.591  +  .078 

+  •33 

+  .029+   i 

-13      -79    -23 

20  G  Chamaeleontis 

2710 

-61    334-74 

89-3 

-17-559-  -"4 

+  .05 

+  .066+   i 

.15    i  .01    .26 

177  G  Carinae  * 

2711 

+  13  5055-35 

64.9 

-17.675-  .217 

+  .18 

-  .047       o 

.10      .48    .24 

34  Leonis 

2712 

—   6  49  26.16 

71.6 

—  17.650—  .200 

+  .14 

—  .020      o 

.10         .47      .21 

2713 

-33  5022.25 

82.6 

-I7-735-.I75 

+  .10 

—  .060      o 

.17         .97      .32 

52  G  Antliae 

2714 

+  5    631.79 

63-7 

—  17.700—  .207 

+  .16 

—  .016      o 

.12        .43      .23 

19  Sextantis 

27IS 

-862532.65 

79-6 

—  17-726+.485 

+  .002+  3 

.08        .8l      .26 

2716 

-2632    5.89 

81.0 

-17.709-  .179 

+  .11 

+  .021          O 

.12         .73      .24 

205  G  Hydrae 

2717 

-   6  53  21.27 

68.0 

-17.709-  .194 

+  .14 

+.023+  I 

.08         .32      .l6 

20  Sextantis 

2718 

-32  32  18.05 

77-7 

-17.697-.  170 

+  .10 

+  .044+     2 

.11         .58      .22 

54  G  Antliae 

2719 

-   7  29  49.83 

67.4 

-17.769-  .195 

+  .14 

—  .021          0 

.11         .44      .22 

21  Sextantis 

2720 

66.0 

-I7-774~-226 

+  .22 

—  .018       o 

.11         .46      .23 

22  Leonis  Min 

2721 

-3951    2.28 

83-3 

-17-755-  -164 

+  .10 

+  .007      o 

.14         .69      .23 

55  G  Antliae 

2722 

-5044  13.69 

78.8 

-17.813-.  148 

+  .07 

—  .051      o 

.14         .71      .26 

* 

2723 

-4i  37  35-41 

76.2 

-  17-773-  -*6o 

+  .09 

+.031+  I 

.09         .39      .l6 

191  G  Velorum  q 

2724 

+  294831.49 

69.8 

—  17.838—  .221 

+  .21 

-  -034      o 

.IO         .42      .20 

23  Leonis  Min 

2725 

-65  52  36.81 

82.3 

—  17.824—  .IO6 

+  .04 

-.015      o 

.14         .6l      .22 

184  G  Carinae  M 

2726 

+  65  36  26.18 

74-7 

-17.826-  .286 

+  •44 

-.013+  I 

.05      .23    .10 

32  Ursae  Maj 

2727 

+  29  10  58.06 

76.8 

—  17.911—  .220 

+  .21 

-  .097      o 

.10      .43    .17 

24  Leonis  Min 

2728 

+  24     O     0.22 

67.8 

—  17.801—  .213 

+  .20 

+  .021+    I 

.07         .31      .15 

35  Leonis 

2729 

+  43  24  49.69 

66.7 

-17.870-  .234 

+  .26 

-.045+    I 

•03        .15      -07 

2730 

+  23  5456.37 

76.6 

—  17.842—  .2l6 

+  .20 

—  .015      o 

.04        .18     .07 

2731 

+  14  13  36.99 

69.4 

—  17.861—  .207 

+  .18 

—  .027      o 

.08        .34     .16 

37  Leonis 

2732 

—  42  36  47.18 

82.2 

—  17.907—  .160 

+  .09 

—  .072       o 

.13         .60      .21 

193  G  Velorum 

2733 

-6932  28.71 

77-3 

-17.838-  .087 

+  .04 

—  .002       o 

.08         .42      .l6 

2734 

+  233627.89 

66.2 

—  17.962—  .2IO 

+  .2O 

—  .110+     2 

.08-        .33      .16 

39  Leonis  * 

2735 

-   7  34  10.28 

75-7 

-  17.886-.  188 

+  .14 

+  .002+     I 

.08         .36      .14 

22  Sextantis.  G  has  e 

2736 

+  4433  24-62 

76.0 

-18.198-  .234 

+  .26 

-•305      o 

.08         .37      .15 

2737 

+  69  15    1.16 

77.1 

-17.959-  .295 

+  •51 

—  .041+     I 

.08         .37      .15 

2738 

-28  29  31.44 

79-3 

-17.923-.  172 

+  .11 

.000      o 

.11         .45      .l8 

59  G  Antlia; 

2739 

-604957.63 

78.0 

+  •05 

—  .007      o 

.10      .48    .18 

187  G  Carinae  q 

2740 

+  5443    7-20 

54-2 

-17.959-  .247 

+  .32 

—  .016      o 

•  13      -43    -27 

2741 

+  19  58  42.00 

61.4 

—  18.183—  .204 

+  .19 

-.231+  I 

.08      .32    .18 

40  Leonis 

2742 

+  20  20  50.63 

67-9 

—  18.  in—  .208 

+  .19 

-•153-  I 

.03      .14    .06 

1  2  1424.   3"8  115°,  slow 

2743 

+  20  2O  48.41 

76.7 

—  18.141—  .208 

+  .19 

—  .182-  I 

.06      .44    .16 

] 

2744 
2745 

+  42   21      6.99 

+  84  45  37.18 

56-6 
77-8 

—  17.981—  .225 
—  18.026—  .593 

+  •25 

+  .OOI          O 

—  .041+  6 

.12         .40      .24 

.06      .25    .10 

29  H  Camelopardi 

2746 

+  6  56    0.14 

79-o 

—  18.054—  .194 

+  .16 

-  .063      o 

.10      .36    .15 

* 

2747 

-5431  37-64 

78.0 

-18.030-.  136 

+  .07 

—  .018      o 

•13         -58      .23 

201  G  Velorum  (V) 

2748 

+  2  47  34-25 

61.4 

—  18.011  —  .191 

+  .16 

+  .OO2          0 

.11         .47      .25 

23  Sextantis 

2749 

-47  ii  47.12 

83.6 

—  18.045—  .148 

+  .08 

—  .019      o 

.12         -79      .24 

202  G  Velorum 

2750 

+  41  44  13.41 

63.6 

—  18.177—  .220 

+  .25 

-.150+  I 

.10         .42      .22 

8734  OS  523.     IIM  7"  299°, 


8746  2  1426. 


f2  o'/8  z8a°;  9"  8"  9°. 


112 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   IQOO 


Ho. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

|i  and  100  A  |i 

Prob.  Errors. 

aEp.      loop,     oio 

M 

h    m         s 

S                        8 

s 

s 

//                     //                n 

2751 

p.  Ursae  Maj 

3-i 

10  16  22.432 

76.8 

+  3.5908-  .0358 

+    .016 

-.0073+  I 

.03               .18           .07 

2752 

Br  1436 

6.4 

16  27.692 

71.6 

+  3.23I2-.OH5 

+   .008 

—  .0027       o 

.09               .42           .l8 

2753 

Paris  12690 

6.8 

16  46.399 

88.8 

+  2.  8  1  88  +  .0065 

+   .009 

—  .0041       o 

.14           1  .06           .27 

2754 

Br  1429 

S-o 

I6S5-S23 

82.1 

+  4-3799-  -Il6o 

+   .098 

—  .0018       o 

•05        -33      -ii 

2755 

L  4272 

4.6 

17  11.497 

75-6 

+  2.2257  +  .OI47 

+   .016 

—  .0021       o 

.14        .60      .25 

2756 

Br  1438 

6.1 

17  20.858 

77.1 

+  3.4676—  .0266 

+   .OI2 

—  .0012      o 

.11        .46      .19 

2757 

Br  1441 

6-5 

17  46.512 

74-4 

+  3.1421—  .0068 

+   .007 

—  .0015      o 

.09        .32      .14 

2758 

L  4271 

4.9 

18    2.194 

86.5 

+  2-5669+.OI29 

+   .OI2 

—  .0029       o 

.10        .56      .17 

2759 

Br  1442 

6.8 

18  21.  202 

66.4 

+  3-°7I5--oo3o 

+   .007 

+  .0031       o 

.12            .50         .25 

2760 

Br  1443 

6-3 

18  23.229 

82.6 

+  3-0333-  -0015 

+   .007 

-  -0033       o 

.08            .57         .17 

2761 

Br  1440 

5-9 

18  23.817 

61.8 

+  3.4615-.  0264 

+    .OI2 

—  .0008      o 

.14            .46         .26 

2762 

Pi  22 

5-3 

18  54.87  • 

77-8 

+  7.  720--.  898- 

-.045  -  +  37 

.04        .30      .10 

2763 

L  4278 

5-6 

19    6.559 

90.8 

+  2.6226+.OII6 

+    .Oil 

—  .0127—    i 

.IO            .69         .17 

2764 

Pi  65 

7-3 

19  19.599 

80.9 

+  2.  7528+.  OOQO 

+   .010 

—  .0026       o 

.12            .72         .24 

2765 

Br  1444 

6.8 

19  58.985 

69-5 

+  3.4726—  .028l 

+  .013 

—  .0092       o 

.09           .34         .16 

2766 

Pi  64 

6.1 

19  59-035 

68.1 

+  3.1656-  .0079 

+  .007 

+  .0008       o 

.09           .44         .20 

2767 

L  4296 

5-3 

20    0.307 

81.5 

+  1.7789+.  0072 

+  .on 

—  .0010       o 

.15            .84         .28 

2768 

Br  1445 

4-9 

20  11.029 

57-2 

+  3.4516—  .0264 

+  .012 

-  .0054       o 

.11            .44        .25 

2769 

Pi  67 

8.0 

20  19.145 

86.8 

+  3.1629—  .0078 

+  .007 

—  .0015       o 

.11            .48         .l6 

2770 

Br  1447 

6.1 

20  44-354 

75-6 

+  2.9975       .OOOO 

+  .007 

—  .0104      o 

.IO           .51         .20 

2771 

fj.  Hydrae 

4.0 

21  15.227 

76.8 

+  2.  8999+.  0040 

+  .008 

—  .0089       o 

.04            .22          .08 

2772 

Br  1450 

7-i 

21  30.588 

79-5 

+  3.0641—  .OO28 

+  .007 

—  .0036      o 

.09            .34         .14 

2773 

Pi  70 

6.2 

21  32.724 

66.6 

+  3-5709-  -0359 

+  .017 

—  .0046       o 

.18            .58         .31 

2774 

Br  1452 

7.0 

21  43-693 

72.4 

+  3.0300—  .OOI2 

+  .007 

—  .0047       o 

.12             .48         .22 

2775 

Groomb  1646 

6.7 

21  53.669 

77-5 

+  3.  7266-  .0495 

+  -025 

+  .0088-   7 

.09            .46         .17 

2776 

ft  Leonis  Min 

4-4 

22      6.171 

78.6 

+  3.4830-  .0295 

+  .014 

—  .0099       o 

.04            .20         .08 

2777 

Br  1453 

6.2 

22  22.IO9 

72-7 

+  3.1732-  .0083 

+  .007 

+  .0008      o 

.07            .44         .18 

2778 

L  43  JQ 

4.0 

22  24.725 

78.3 

+  1.2017—  .0224 

-  -034 

-.0043-     2 

.IO            .52         .19 

2779 

a  Antliae 

4-4 

22  34-559 

79.1 

+  2.  7416+.  0097 

+  .010 

-  -0053       o 

.06            .36         .13 

2780 

Pi  69 

6.6 

22  48.408 

75-o 

+  4.3156—  .1150 

+  .102 

.0000—    I 

.10        .40      .17 

2781 

Brisb  3017 

5-6 

22  57.673 

91.4 

+  2.3061  +  .0164 

+  .016 

—  .0002       o 

.20         I.O5         .28 

2782 

Pi  83 

7-3 

23  27.854 

76.6 

+  3.2119—  .0110 

+  .008 

-  .0054       o 

.08            .48         .18 

2783 

L  4310 

5-° 

23  40.927 

90.6 

+  2.  2283  +  .0164 

+  .018 

—  .0003       o 

.20         I.  O6         .28 

2784 

L  43*4 

4.0 

24  12.471 

86.2 

+  2.  1944+.  0163 

+  .018 

—  .0020      o 

.14            .78         .23 

2785 

Br  1454 

5-o 

24  13.823 

79.0 

+  3.8700—  .0660 

+  .042 

-.0215+  3 

.05            .26         .IO 

2786 

L432I 

6-3 

24  I6.I28 

81.8 

+  1.8872  +  .01  1  1 

+  .015 

—  .OI2I—     2 

.14            .70         .24 

2787 

Br  1455 

6.0 

24  16.360 

61.0 

+  3-5I73--032i 

+  -015 

—  .0009       o 

.12            .38         .22 

2788 

Br  1457 

5-3 

24  23.971 

71.6 

+  3.0481—  .0019 

+  .007 

—  .0032       o 

.11             .39         .19 

2789 

Pi  90 

6.1 

2451.781 

86.0 

+  2.  7666  +  .0094 

+    .010 

—  .005  1       o 

.14            .69         .21 

2790 

8  Antliae 

5-9 

24  59.082 

81.5 

+  2.  7569  +.0098 

+  .010 

-  -0034      o 

.12            .57         .20 

2791 

L  4320 

7-i 

25      2.159 

87.9 

+  2.  2497  +  .0168 

+  .018 

—  .0028      o 

.18           .84        .26 

2792 

Br  1459 

5-3 

25  10.756 

69.2 

+  3.0681—  .0029 

+  .007 

-.0031       o 

.11            .44        .21 

2793 

Br  1460 

7-4 

25  21.084 

81.3 

+  3.1019—  .0042 

+  .007 

+  .0046      o 

.11            .40        .l6 

2794 

L  433° 

5-3 

25  33.044 

87.4 

+  1.9905  +  .0139 

+  .017 

—  .0006       o 

.18           .92         .27 

^795 

Br  1439 

6.8 

25  44-412 

7i-S 

+  6.4437-  .5572 

+1.408 

-.0059+     2 

.O?           .32         .14 

2796 

Br  1462 

6.7 

25  58-378 

80.6 

+  3.  002  7  +  .0004 

+  .008 

—  .0030      o 

.08           .45         .15 

2797 

Pulkw  1642 

5-7 

26      5.051 

91.0 

+  2.  9454  +.0030 

+  .008 

-  -0033       o 

.13            .63         .17 

2798 

Br  1461 

6.1 

26  IO.8l4 

69.9 

+  3.4174-  .0247 

+  .013 

+  .0010      o 

.12            .52         .24 

2799 

Br  1446 

5-o 

26  36.303 

73-2 

+  5.2255-.  2725 

+  -442 

—  .0079+    2 

.04           .22         .09 

2800 

Br  1463 

5-8 

10  26  51.543 

71.8 

+  3.2077-  .0107 

+  .008 

—  .0027       o 

.09           .39        .I? 

3755  Rumk.    9M  7"  105°. 


CATALOGUE   OF   6 1 88   STARS   FOR    1900 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

li'and  100  A  p' 

Prob.  Errors. 
SEp.  100  n'  Sio 

Remarks. 

2751 

Of                 ft 

+  42    o    8.77 

71.9 

//           ft 

—  l8.0I2—  .220 

// 

+    -25 

// 

+  .020      o 

//         a       a 

.04      .17    .07 

2752 

+  15  28  46.90 

69-3 

-I8.066-.  198 

+    .18 

—  .030      o 

.08      .36    .17 

42  Leonis 

2753 

—  23   12   27.62 

90.8 

—  I8.02O—  .171 

+     .12 

+  .028      o 

.14    1.26    .28 

2754 

+  66    4  19.60 

77-3 

—  18.076—  .270 

+    -43 

-  .023      o 

.05      .25    .10 

30  H  Ursae  Maj 

2755 

-55  32  22.26 

73-3 

-18.063-.  133 

+    .07 

.000         O 

.11         .49      .21 

203  G  Velorum  * 

2756 

+  34  24  46.92 

74-o 

—  18.091—  .211 

+     .22 

—  .022         O 

.IO         .40      .l8 

27  Leonis  Min 

2757 

+  7    3    1-22 

71-4 

—  18.192—  .190 

+     .16 

—  .106      o 

.08         .29      .14 

43  Leonis 

2758 

-41    848.45 

77-7 

-I8.042-.  153 

+     .10 

+  •053         ° 

.09         .39      .16 

204  G  Velorum  r 

2759 

-  o  23  44.64 

68.2 

—  18.152—  .184 

+     .16 

-  -045      o 

.10      .39    .19 

24  Sextantis 

2760 

-   3  34    7-34 

75-2 

—  18.115—  .182 

+     -15 

—  .006      o 

.08         .40      .l6 

25  Sextantis 

2761 

+  34  13  27.52 

64.1 

-18.137-.  209 

+     .22 

—  .028       o 

.12         .55      .28 

28  Leonis  Min 

2762 

+  83    4    2.98 

80.  i 

—  18.104—  .470 

+  •024+  3 

.04         .27      .09 

* 

2763 

-373°    8.53 

85.0 

-18.199-.  154 

+     .10 

-.063+   i 

.10      .53    .17 

64  G  Antlise 

2764 

—  29    831.27 

79-6 

-18.045-.  163 

+     -II 

+  .099      o 

•13         -63      -23 

(y  Antliae) 

2765 

+  35  56    4-05 

66.0 

—  18.245—  .2O6 

+     .22 

-.077+  I 

.08         .32      .l6 

29  Leonis  Min 

2766 

+  9  i7  35-46 

64.4 

-18.  2ii—  .187 

+     -17 

-  .043      o 

.08         .47      .23 

44  Leonis 

2767 

-6623  43.95 

75-9 

—  18.171—  .IO2 

+     .04 

—  .002          0 

.11         .58      .23 

191  G  Cannae  L 

2768 

+  34  18  19.05 

58.8 

—  18.258—  .204 

+     .22 

—  .083       o 

.08         .46      .25 

30  Leonis  Min 

2769 

+  9  17    2.99 

76-4 

-  18.193-.  186 

+     -17 

-.013      o 

•10        -33      -15 

SS426.    ioM3"67° 

2770 

-   6  33  20.44 

76.6 

-18.088-.  175 

+     -IS 

+  .108+     I 

.09        .45      .I? 

2771 

—  16  19  32.82 

75-5 

—  18.299—  .168 

+     .14 

—  .084      o 

.05        .26     .IO 

2772 

-   o  28  46.64 

77-3 

—  18.225—  .178 

+     .16 

—  .001      o 

.08        .28     .12 

26  Sextantis 

2773 

+42    6  43.28 

61.3 

-18.313-.  209 

+     -25 

-  .088      o 

.14        .47      .27 

2774 

-   3  52  45-9° 

73-6 

-18.237-.  176 

+     -15 

-.005       o 

.10      .39    .17 

27  Sextantis 

2775 

+  49  19    8.  02 

75-6 

—  19.132—  .218 

+     .28 

—  .894      o 

.07        .38     .15 

2776 

+  37  13  10.73 

73-3 

—  18.356—  .202 

+     -23 

—  .110+   I 

.04        .21      .09 

2777 

+  10  16  19.69 

68.1 

—  18.262-.  183 

+     -17 

—  .007      o 

•06        .33      .15 

45  Leonis 

2778 

-73  3i  21.38 

77-8 

—  18.278—  .064 

+     .05 

—  .021      o 

.08        .46     .17 

193  G  Carinae  / 

2779 

-3°33  3I-°4 

77-2 

-18.263-.  157 

+     -II 

.000      o 

•07         -34     .13 

2780 

+  66    8  16.02 

68.3 

—  18.316—  .251 

+     -42 

-  -045      o 

.08        .30     .15 

35  Ursae  Maj 

2781 

—  54  22      4.08 

84.8 

-18.283-.  130 

+     .07 

—  .006      o 

•15      -73    -24 

209  G  Velorum 

2782 

+  1451    16.03 

75-2 

-18.318-.  l83 

+     .18 

-  .023      o 

.08      .45    .18 

2783 

-57    743-J9 

76.7 

-18.309-.  125 

+     .06 

—  .007      o 

•  13      -56    -23 

195  G  Carinae 

2784 

-58  13  43.46 

83-3 

—  18.329—  .122 

+     .06 

—  .008       o 

.11      .57    .19 

196  G  Carinae  5 

2785 

+  56  29  36.08 

70.4 

—  18.360—  .220 

+     -31 

-.038+  I 

.06      .24    .11 

36  Ursae  Maj 

2786 

-65  ii  40.99 

81.0 

-18.307-.  103 

+     .05 

+.016+  I 

.11         .6l      .21 

198  G  Carinae 

2787 

+  39  26  13.67 

56.6 

—  18.327—  .200 

+    .24 

—  .004      o 

.11         .39      .24 

32  Leonis  Min 

2788 

—   2  13  38.02 

72-5 

-18.347-.  172 

+     .16 

—  .019      o 

.09         .37      .I? 

29  Sextantis 

2789 

-29    9    8-53 

78-5 

-18.342-.  154 

+     -II 

+  .OO2         O 

.12        .52      .20 

224  G  Hydras 

2790 

—  30    543-26 

76.9 

-18.359-.  154 

+     .11 

—  .010      o 

.11        .45      .18 

h  4321.  9"  n"  226° 

2791 

—  56  43  19.00 

84.7 

-18.347-.  124 

+     -07 

+  .003      o 

.14         .65      .22 

2792 

-  o    7  27.07 

61.3 

-18.383-.  172 

+     .16 

—  .028       o 

.10      .43    .23 

30  Sextantis 

2793 

+   2  39  49.10 

75-2 

—  18.406—  .174 

+     .16 

-  .045     ° 

.10      .34    .16 

31  Sextantis 

2794 

-63  3937-76 

88.3 

-  18.361-.  108 

+     -05 

+  .007       o 

•IS      -93    -25 

199  G  Carinae 

2795 

+  81    035.86 

68.8 

-18.383-.  368 

+  1.22 

—  .008      o 

.07      .28    .14 

2796 

-   7    7  28.52 

73-6 

—  18.384-.  166 

+  -is 

—  .001       o 

.08    .37  .16 

S  1441.    IOM  2'.'7  166° 

2797 

-13    431-57 

88.4 

-18.389-.  163 

+  .14 

—  .002       o 

.13     .64  .19 

225  G  Hydrae 

2798 

+  32  53  33-84 

68.5 

—  18.398-.  190 

+     .22 

—  .008      o 

.IO         .46      .22 

33  Leonis  Min 

2799 

+  76  13  41.46 

77-9 

-18.415-  .294 

+     -71 

—  .010      o 

.03         .20      .O? 

9  H  Draconis 

2800 

+  1439    1.71 

67.2 

—  18.401—  .177 

+     .18 

+  .013      o 

.08         .34      .I? 

46  Leonis  (i) 

2762  Groorab  1633.     30  H  Camelopardi. 


114 


PRELIMINARY   GENERAL   CATALOGUE   OF   STARS   FOR    1900 


Ho. 

Designation. 

Mag. 

R.  A.  i  goo 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  100  Ap 

Prob.  Errors. 
a  Kp.      loop     aio 

M 

h    m        s 

s               s 

s 

s 

//              //           // 

2801 

Br  1466 

7-7 

10  27    6.831 

80.  i 

+3.1  190-  .0054 

+  .007 

—  .0009       o 

.11          .36        .15 

2802 

Groomb  1658 

4-9 

27  23-933 

59-3 

+  3.  5156-  .0337 

+  .017 

—  .0125+    i 

.15          .78        .42 

2803 

L  4336 

5-i 

27  28.699 

90.8 

+  2.3254+  .0166 

+  .017 

-.0450-    4 

.16        1.17        .28 

2804 

p  Leonis 

3-8 

27  32-793 

71.8 

+  3.1627—  .0079 

+  .007 

—  .0005       o 

.03          .18        .07 

2805 

L  43341 

6.9 

27  40.325 

84.2 

+  2.556o+.oi54 

+  .015 

—  .0005      o 

.18          .98        .31 

2806 

Pi  96 

7.8 

27  4I-I38 

88.9 

+  3.  7  1  74-  .0489 

+  .027 

+  .0274-     2 

•09        -45       -13 

2807 

L  4334* 

6.4 

27  4I-I55 

86.3 

+  2.5569+.OI54 

+  -015 

+  .0003      o 

.18        .88      .28 

2808 

Br  1465 

5-8 

27  47-9r9 

72.9 

+  3.4428-  .0273 

+  -013 

—  .0028       o 

.09        .36      .16 

2809 

L43S7 

4-9 

27  48-695 

86.0 

+  1.5151-.  0034 

-  .003 

+  .0045       o 

.18        .81       .27 

2810 

Pi  104 

8.0 

27  49-231 

81.6 

+  2.  9161  +  .0044 

+  .009 

—  .0019       o 

.15        .92      .30 

2811 

L  4348 

3-4 

28  28.048 

78.8 

+  2.i247  +  .oi68 

+  .019 

-  -0035       o 

.11         .54      .20 

2812 

L  4367 

4.9 

28  42.166 

87.4 

+  1.4070—  .0095 

-  .013 

—  .0001       o 

.18        .90      .27 

2813 

Br  1464 

5-2 

28  43-423 

79-o 

+  3-8973-  -0697 

+  -047 

+  .0083—    I 

.05        .24      .09 

2814 

L  4344 

5-i 

28  43.640 

92.2 

+  2.5258  +  .oi6i 

+  -015 

—  .0006       o 

.20      1.17       .28 

2815 

Br  1471 

5-5 

29  J5-475 

78.2 

+  2.8509+.  0075 

+  .009 

—  .0002       o 

•°9        -39      -IS 

2816 

Br  1468 

5-4 

29  35-049 

69-4 

+  3.  1325-.  0065 

+  .007 

—  .0072      o 

.08        .34      .16 

2817 

Br  1469 

5-9 

29  47.414 

64.8 

+  3.  1520-  .0075 

+  .007 

—  .0030       o 

.11        .46      .24 

2818 

Br  1472 

6-5 

30  12.126 

78.0 

+  2.  8523  +  .0072 

+  .010 

—  .0070      o 

.11        .64      .24 

2819 

Br  1470 

6-5 

3037.190 

70.1 

+  3-4553-  -0288 

+  .014 

+  .OO22         O 

.12            .58         .26 

2820 

L435» 

5-5 

3°  46.357 

87.2 

+  2.6583  +  .OI38 

+  .013 

—  .0026      o 

.18           .90        .27 

2821 

Br  1474 

6-5 

31  23.678 

67.7 

+  2.9276+.  0045 

+  .009 

—  .0019       o 

.11            .50        .24 

2822 

Yarn  4514 

6.1 

31  33-603 

89.0 

+  2.  9863  +  .0024 

+  .009 

+  .0l8l-     2 

•°9        -57      -iS 

2823 

L4373 

4-5 

31  44-747 

83-6 

+  2.  2956+.  0187 

+   .020 

—  .0025       o 

.12            .69         .22 

2824 

Br  1473 

6.9 

32  n-974 

79.1 

+  3.4146—  .0262 

+  .013 

-  .0023       o 

•12            -33         -IS 

2825 

Pi  123 

5-2 

32  32-093 

80.7 

+  2.8n6+.oo9i 

+   .010 

—  .0083       o 

.12            .54        .20 

2826 

L  4380 

5-3 

32  35.864 

91.0 

+  2.2376+.oi87 

+   .021 

-.0054-  I 

.20         1.04         .28 

2827 

U  Hydra 

Var. 

32  36.944 

79-2 

+  2-96i2  +  .oo33 

+  .009 

+  .0024      o 

.13            .87         .30 

2828 

Groomb  1668 

5-8 

32  53-657 

63.0 

+  3.  7498-  .0584 

+  .037 

—  .0098  +    I 

.13            .54         .29 

2829 

Br  1475 

4-9 

33    5-666 

64.0 

+  3.3880—  .0240 

+     .012 

+  .0005       o 

.10            .40         .21 

2830 

L  4378  m 

4.0 

33    5-870 

79-5 

+  2.5i24+.oi7o 

+     .016 

—  .0162—     2 

.11             .51          .19 

2831 

Br  1477 

6.0 

33  24-635 

59-7 

+  3-4447  --0302 

+     .016 

-.0188+     I 

.07             .26         .15 

2832 

Br  1478 

6.9 

33  32.7!9 

61.2 

+  3.2225—  .0118 

+     .009 

+  .0030      o 

.13             .51          .28 

2833 

L  4411 

6.4 

33  33-993 

84.0 

+  1.1230-  .0312 

-     -056 

—  .0057—     2 

•iS        -75      -25 

2834 

Br  1458 

7.0 

33  38-037 

70.8 

+  6.1679—  .5292 

+  I.369 

+  .0083-   3 

.06        .32      .14 

2835 

L4388 

5-7 

33  38.397 

89-4 

+  2.2770+.OI93 

+     .021 

—  .0018       o 

.20            .98         .28 

2836 

<f>  Hydra 

5-2 

33  42-560 

75-0 

+  2.  9205  +  .0048 

+     .009 

—  .0076       o 

.08      .34    .14 

2837 

y  Chamaeleontis 

4.0 

34  17-342 

83-2 

+0.7440-  .0693 

-     -U9 

-.0136-    5 

.11        .58      .20 

2838 

Groomb  1669 

6.1 

34  41-774 

79-4 

+4.3302-  -1347 

+     .146 

—  .0060+   i 

.09      .50    .17 

2839 

Br  1480 

7-3 

34  48.993 

63.6 

+  3-3309—  -o200 

+    .Oil 

.0000       o 

.15      .48    .27 

2840 

L  4396* 

4-9 

34  56-647 

82.0 

+  2.  2769+.  0198 

+    .021 

+  .0006      o 

.16       .78      .27 

2841 

Br  1476 

5-2 

35    7-6i6 

65.7 

+  4.1444—  .IIO6 

+    .107 

—  .0267+  4 

.IO            .42          .21 

2842 

L  4398 

4-3 

35  i9-54i 

88.0 

+  2.3787  +  .oi96 

+    .020 

—  .0023       o 

.15            .80         .23 

2843 

Brisb  3136 

6.9 

35  25-439 

85-4 

+  2.3805+.  0197 

+    .020 

—  .0011          0 

.18            .78         .26 

2844 

Pi  126 

5-3 

35  54-754 

80.  i 

+  4.3600—  .1409 

+    -159 

—  .0014       o 

•05        -34      .12 

2845 

L  4399 

6.8 

36  17-537 

89-3 

+  2.7323  +  .OI30 

+    .013 

—  .003  1       o 

.14         I.O2         .26 

2846 

Br  1482 

6.8 

36  18.959 

82.6 

+  3.0528-  .0019 

+    .008 

—  .0094       o 

.05            .28         .09 

2847 

Pi  131 

6-5 

36  35-200 

86.7 

+  3.3722-.  0236 

+    .013 

.0000       o 

.11            .54         .17 

2848 

L  4418 

5-9 

36  43-546 

89-3 

+  2.0712  +  .  0184 

+    -023 

—  .0018       o 

.20      i.oo      .28 

2849 

L  4510 

7-i 

36  55-i6- 

86.2 

-3-053--  1-078- 

—  .004-  —  10 

.07       .63     .16 

2850 

Br  1481 

5-9 

10  37  24.643 

57-2 

+  3.8206-  .o636 

+    -049 

+  .OO2I—     I 

.13       .40     .25 

2803  h  4329.     8M3i"83°;    Comp.  has  little  p.m. 


2805-7    14"  218°. 


2814   pw  fols.  i'i  S  38". 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


No. 

Decl.  i  goo 

Epoch 

An.  Var.  and 
Sec.  Var. 

3dt 

H/  and  100  A  \L 

Prob.  Errors. 
SEp.  100  HI'  8  10 

Remarks. 

2801 

O           t               It 

+   59  3°-69 

75-9 

n                 ft 

-18.395-.  171 

+    .16 

»r 

+  .028       o 

//                If              It 

•°9      -33    -IS 

32  Sextantis 

2802 

+  40  56  24.51 

54-6 

-18.440-.  193 

+    .24 

—  .007+  I 

.13      .64    .38 

h2534.     I2M23"322° 

2803 

-53  12  26.70 

81.0 

—  18.253—  -122 

+    .08 

+  .182+  3 

.12         .56      .20 

215  G  Velorum* 

2804 

+  9  49  l6-35 

69.9 

-18.444-.  173 

+    -17 

—  .006       o 

.03         .16      .07 

2805 

-4433  !9-n 

76.6 

-18.433-.  138 

+    .09 

+  .009       o 

.14         .67      .26 

216  G  Velorum  s1* 

2806 

+  49  41  51.27 

85.0 

—  18.321—  .206 

+    .27 

+  .121—     2 

.08         .36      .12 

2807 

-4433    8.60 

77-5 

-  18.450-.  138 

+    .09 

—  .008       o 

-14         -58      .23 

217  G  Velorum  s2* 

2808 

+  35  3°  !3-23 

67.8 

-  18.467-.  188 

+     .22 

—  .021       o 

.08         .32      .15 

34  Leonis  Min 

2809 

-71  28  41.86 

83-3 

—  18.480—  .079 

+      .04 

-  -033       o 

.14         .69      .23 

202  G  Carinae  K 

2810 

—  16  26  30.01 

80.2 

-i8.537-.is8 

+      .14 

—  .090      o 

•13         -65      -23 

(43  Hydra  $') 

2811 

—  61  10  15.16 

77-6 

—  18.462—  .112 

+      .06 

+  .007       o 

.09         .45      .17 

203  G  Carinae  p 

2812 

—  72  42  26.25 

83.6 

—  18.485—  .072 

+     .04 

—  .008      o 

.15         .69      .24 

204  G  Carinae 

2813 

+  57  35  5i-76 

66.9 

-18.447-.  213 

+      -32 

+  .031       o 

.06         .22      .11 

37  Ursae  Maj 

2814 

—  46  29  17.64 

79-8 

-18.488-  .135 

+      .09 

—  .010      o 

.13         .58      .22 

219  G  Velorum  t  * 

2815 

-23  13  47.70 

81.5 

-18.488-.  152 

+      -13 

+  .008       o 

.08         .36      .13 

44  Hydras 

2816 

+  7  28    6.58 

53-7 

-I8.455-.  167 

+     -17 

+  .052      o 

.08         .29      .18 

48  Leonis 

2817 

+  9  10    1.45 

58.4 

-  18.525-.  168 

+     -17 

—  .Oil         0 

.09         .35      .20 

49  Leonis  * 

2818 

-22  3937.17 

79-2 

—  18.486—  .150 

+      -13 

+  .042       o 

.11         .75      .26 

231  G  Hydrae 

2819 

+  36  5°  43-41 

67.1 

-18.585-.  184 

+     -23 

-  -043     ° 

.10         .45      .22 

35  Leonis  Min 

2820 

-39    243.40 

83.6 

-18.543-.  139 

+      .11 

+  .004      o 

.14         .71      .23 

71  G  Antliae 

2821 

-  15  49  35-38 

70.8 

-18.569-.  153 

+      .14 

—  .002       o 

.11         .44      .20 

(tf  Hydra) 

2822 

-ii  41  36.19 

87.8 

-19.257-.  157 

+      .14 

-.684-  I 

.08         .73      .18 

236  G  Hydrae 

2823 

-57    223.46 

83-4 

-i8.593-.ii8 

+      .07 

-.013      o 

.11         .58      .19 

208  G  Carinae  r 

2824 

+  3435  50-65 

76.2 

-18.593-.  178 

+      .22 

+  .001          O 

.11         .35      .16 

36  Leonis  Min 

2825 

—  26  53  40.06 

82.1 

—  18.602—  .144 

+     .12 

+  .003       o 

.11         .47      .17 

241  G  Hydrae 

2826 

-  59    2  40.98 

81.1 

—  18.672—  .113 

+     .07 

-  .065       o 

.15         .6l      .23 

210  G  Carinae  t1 

2827 

-12  51  51.69 

78.6 

—  18.622—  .153 

+     .14 

—  .015      o 

.10      .71    .24 

240  G  Hydras* 

2828 

+  54  ii  24.95 

58.2 

—  18.697—  .194 

+     .29 

-.081       o 

.12         .46      .27 

2829 

+  32  29  44.52 

64-5 

—  18.626—  .175 

+      .21 

-.003      o 

.08        .35      .18 

37  Leonis  Min 

2830 

—  47  42  22.20 

77-8 

-18.653-.  127 

+     .09 

-.030+  I 

.09        .44      .17 

222  G  Velorum  p* 

2831 

+  38  25  52.63 

63-3 

—  18.679—  .176 

+      -23 

—  .046+   I 

.06        .24      .13 

38  Leonis  Min 

2832 

+  1638  52.48 

57-5 

-18.666-.  165 

+     .18 

—  .029       o 

.13         .47      .28 

50  Leonis 

2833 

-75  47  26.43 

83.2 

-18.635-  .052 

+     .05 

+  .003       o 

.12         .60      .20 

22  G  Chamasleontis 

2834 

+  80  56  56.29 

69.1 

-18.627-.  323 

+  I.IO 

+  .013      o 

.06         .28      .13 

2835 

-58   12  50.51 

80.6 

-18.653-.  114 

+      .07 

-.013       o 

.15         .60      .23 

2  1  1  G  Carinae 

2836 

—  16  21  26.63 

74-7 

-18.623-.  148 

+     -14 

+  .020      o 

.06         .29      .12 

(<f>3  Hydra) 

2837 

-78    5  20.95 

81.7 

—  18.645-  .031 

+     .07 

+  .016+  I 

.IO         .51      .l8 

2838 

+  68  57  57.32 

81.4 

—  18.692—  .221 

+    -44 

—  .018       o 

•07      -39    -13 

2839 

+  28     2  46.99 

61.9 

-  18.691-.  168 

+     -21 

-  -013       o 

.13      .50    .27 

39  Leonis  Min 

2840 

-583945.01 

76.1 

—  18.695—  .112 

+    .07 

-.013       o 

•13      -56    -23 

213  G  Carinae  <2* 

2841 

+  66  14  25.07 

58-4 

—  18.761—  .2IO 

+    -38 

-.073+  I 

.08      .31    .18 

38  Ursae  Maj 

2842 

-55    456-87 

84.7 

-18.713-.  117 

+    .08 

—  .019       o 

.12         .6l      .20 

225  G  Velorum  x 

2843 

-55    5  10.43 

84-4 

—  l8.7I2—  .117 

+    .08 

—  .015       o 

.15         .69      .23 

2844 

+  6935  57-29 

74.0 

-18.735-.  220 

+    -44 

—  .022          0 

.05      .24    .10 

* 

2845 

-35  13  n-43 

81.4 

-18.708-.  134 

+     .12 

+  .016      o 

.17      1.09      .36 

76  G  Antliae 

2846 

-    i  12  57.46 

77-8 

-18.854-.  ISO 

+      .16 

—  .129      o 

.05         .25      .IO 

33  Sextantis 

2847 

+  32  13  12.65 

82.6 

—  18.764—  .167 

+     .21 

-  .030      o 

.10      .45    .16 

2848 

-643442.54 

87.7 

-  18.738-  .099 

+      .06 

.000         O 

.15    .87  .25 

2170  Carinae 

2849 

-85  34  20.94 

86.7 

-18.758  +.165 

—  .014      o 

.06    .57  .15 

10  G  Octantis 

2850 

+  53  43  27-62 

52-7 

-i8.8i6-.i88 

+     -31 

-  -057      o 

.11         .34      .22 

39  Ursae  Maj 

2817  S  1430. 
2830  Lowell. 


2'/4  157°. 
5-s'!lo  o'.'7  261° 


2840  Dunlop.     6*C9  15"  19°. 


2827  4*!I5  to  6*2     Pulkss  1654. 

2844  Groomb  1673.     35  H  Ursae  Maj. 


n6 


PRELIMINARY   GENERAL   CATALOGUE   OF   STARS   FOR    1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  100  A  ji 

Prob.  Errors. 

a  Ep.      loop      aio 

• 

M 

h    m        s 

- 

S                     5 

S 

s 

//               //            // 

2851 

Br  1484 

6.9 

10  37  27.649 

70.4 

+  3.  looo-  .0045 

+  .008 

—  .0062       o 

.05           .24        .11 

2852 

Br  1483 

5-6 

37  32-5°6 

67.4 

+  3.3027—  .0188 

+  .OII 

—  .0079      o 

.09           .33        .16 

2853 

Pi  i3S 

5-3 

37  40-397 

76.8 

+  3-5443-  -0415 

+  .025 

—  .O27I+     2 

.08           .42        .16 

2854 

Br  1485 

5-i 

37  58-810 

82.8 

+  3.2697—  .0164 

+  .011 

—  .0083       o 

.05         .32       .10 

2855 

Br  1489 

7.2 

38    4.470 

77-8 

+  2.  87  26  +  .008  1 

+  .610 

—  .OOIO          O 

.13        .68      .26 

2856 

L  4415 

5-9 

38    5-059 

85-5 

+  2-7773  +  .OI20 

+  .012 

—  .0007       o 

.12            .78         .22 

2857 

Pi  137 

7-7 

38    8.405 

78-7 

+  3-5420-  .0415 

+  .025 

•-.0268+    2 

.IO            .51          .19 

2858 

Br  1487 

6.6 

38    9-507 

63-4 

+  3.  1174-  .0051 

+  .008 

+  .0020       o 

.11             .42          .22 

2859 

L  4440 

5-2 

3841.177 

80.4 

+  2.I2O3  +  .OI98 

+  .024 

-.0025       o 

.15             .69         .25 

2860 

1,4435 

5-5 

38  48.600 

87.0 

+  2.3099+.  021  1 

+  .023 

—  .0002       o 

.l6            .99         .28 

2861 

L  4426 

7-5 

39    4.980 

94-2 

+  2.  7065  +  .0148 

•  +  .014 

+  .OO22         O 

.1*4         I.O5          .22 

2862 

0  Carinas 

2.8 

39  23.294 

68.9 

+  2.  1303  +  .0202 

+  .025 

-  -0033      o 

.09            .36         .17 

2863 

L  4446 

4.4 

39  43-7S2 

92.4 

+  2.27I8+.O2I3 

+  .024 

—  .0049—     x 

.l6         I.I7          .26 

2864 

Br  1491 

6.7 

40    0.328 

68.8 

+  3.0932-.  0039 

+  .008 

^-.0032      o 

.09            .44         .20 

2865 

Br  1488 

6.7 

40    6.571 

66.0 

+  3.  7941  -.0685 

+  .051 

—  .0058      o 

.11             .42          .22 

2866 

Br  1490 

5-4 

40  18.359 

84.4 

+  3-3463-.  0225 

+  .OI2 

—  .0020      o 

.04            .28         .08 

2867 

L4455 

5-i 

40  29.800 

82.6 

+  2.l6l5  +  .O2IO 

+  .025 

—  .0020       o 

.18            .75          .27 

2868 

Br  1493 

6.6 

40  53-312 

72.9 

+  3.1266—  .0058 

+  .008 

—  .0005      o 

.06            .28          .12 

2869 

Br  1492 

5-9 

4i     1-343 

67.0 

+3-2377-  -0133 

+  .OIO 

+  .0062       o 

.11             .45          .22 

2870 

Br  1494 

5-8 

4i    7-545 

70.2 

+  3.1818—  .0103 

+  .009 

—  .0090       o 

.09            .40         .l8 

2871 

ri  CarinEe 

Var. 

41  10.817 

66.4 

+  2.3181  +  .O22O 

+  .024 

+  .0005      o 

.06            .33          .16 

2872 

Brisb  3200 

7.2 

4i  57-603 

87-3 

+  2.  8463  +  .0093 

+  .OIO 

—  .0129      o 

.13            .90         .24 

2873 

Br  1496 

5-7 

41  58.111 

69.1 

+  2.9370+  .0056 

+  .009 

—  .0009      o 

.11            .46         .22 

2874 

Br  1495 

7-8 

42    7-153 

75-2. 

+  3.  1229-  .0058 

+  .008 

-.0031       o 

.08           .27         .12 

2875 

p.  Velorum 

2.6 

42  28.033 

78.2 

+  2.  5692  +  .0196 

+  .019 

+  .0052       o 

•09        -39      -15 

2876 

L  4471 

5-6 

42  39.210 

88.6 

+  2.I628+.O2I7 

+  .027 

—  .0027—    I 

.20        .96      .28 

2877 

Pi  159 

8.0 

42  41.691 

93-7 

+  2.9450+.  0048 

+  .009 

—  .0080       o 

.13      .63     .16 

2878 

L  4473 

5-5 

42  50.986 

84.6 

+  2.I776+.O22O 

+  .026 

—  .OOOI          0 

.18      .82  .  .28 

2879 

L  4468 

5-5 

42  55-342 

89.8 

+  2-4II6+.O22I 

+  .023 

—  .0012       o 

.20       1.05       .29 

2880 

L-4475 

5-i 

43  12.752 

88.8 

+  2.I759+.022I 

+  .027 

—  .OOI  I         O 

.20           .96         .28 

2881 

Br  1497 

6-5 

43  26.396 

80.4 

+  3.3180—  .0212 

+  .OI2 

—  .0068      o 

.11            .39         .16 

2882 

Br  1502 

7-4 

43  57-213 

72-3 

+  3.  007  2  +  .001  9 

+  .009 

+  .0005       o 

.13        .68      .29 

2883 

Br  1500 

5-5 

44    o.ioi 

77-7 

+3.  1574-  .0080 

+  .008 

—  .0001          O 

.03        .18      .06 

2884 

L  4469 

7.2 

44  12.736 

92.6 

+  2.8422  +  .0104 

+  .OII 

-  -0053      o 

.14         1.22         .26 

2885 

Br  1503  s  * 

7.2 

44  I3-042 

67.4 

+  3.0424—  .0004 

+  .008 

-  -0035      o 

.12            .46         .23 

2886 

L  4509  m 

5-6 

44  19.000 

80.0 

+0.6180—  .0967 

—  .250 

—  .0112—   8 

.13            .70        .25 

2887 

Br  1501 

6-3 

44  24.054 

7i-3 

+3.3072-.  0199 

+  .OI2 

—  .0002       o 

.09           .39         .18 

2888 

v  Hydrae 

3-3 

4441.423 

69-9 

+  2.9578  +.0054 

+  .009 

+  .0065+  I 

.05            .24         .11 

2889 

SChamaeleontis 

4.6 

44  50.818 

76-3 

+0.6097—  .0980 

-.254 

—  .0183—  10 

.06           .50        .18 

2890 

Br  1499 

6.0 

45     I-3I4 

65-3 

+  3.7280—  .0648 

+  .048 

-.0085+  I 

.13            .42         .23 

2891 

Br  1498 

5-9 

45    6.717 

66.3 

+3.8069-  .0745 

+  .060 

—  .0040      o 

.10        .33      .17 

2892 

Br  1505 

6.0 

45  I7-044 

82.7 

+  3.  0087  +  .  0019 

+  .009 

—  .0007       o 

.08           .44         .14 

2893 

L  4483 

5-9 

45  I7-778 

84.2 

+  2.7838  +  .OI33 

+  -OI3 

—  .0050      o 

.15        .88      .27 

2894 

Br  1507 

6.9 

.  46  12.311 

76-3 

+  2.9336+.  0063 

+  .010 

—  .0029       o 

•i4        -54      -23 

2895 

Pi  170 

7.0 

46  30.420 

65.2 

+  3.6323-.  0538 

+.038 

—  .OOIO         O 

.11        .52      .26 

2896 

Pi  171 

6.8 

46  32.203 

69.0 

+  3.6247-.  0535 

+.038 

—  .0072+   I 

.11             .48         .22 

2897 

Groomb  1697 

6-3 

46  40.188 

81.4 

+  4.1731-.  1393 

+•177 

—  .0789+19 

.08            .54          .18 

2898 

Br  1506 

5-5 

47  3I-245 

78.0 

+  3-66d2—  .0585 

+  .042 

—  .0083  +    I 

.09            .36         .15 

2899 

Br  1509 

3-9 

47  43-269 

75-5 

+  3.3674-  .0258 

+  .015 

+  .0074-  I 

.04            .22         .09 

2900 

<o  Ursse  Maj 

4.9 

10  48  13.495 

70.4 

+  3.4703-.  0364 

+  .O2  2 

+  .0042       o 

.07             .30         .14 

2852  /3  913.     i3M  13"  118°. 

2885  S  1476.     &fo  a"  i°,  very  slow. 


2858  S  1466. 
2886  Innes. 

\ 


7^6  7"  240°. 

o'.'6  61° 


CATALOGUE   OF   6 1 88   STARS   FOR    1900 


117 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

pi'  and  100  A  |i' 

Prob.  Errors. 
>Ep.  loop'  Sio 

Remarks. 

2851 

+  46  20.28 

69-5 

//           // 
—  18.740—  .151 

+  •17 

+  .02  1       o 

//          it        it 
.05       .24    .11 

34  Sextantis 

2852 

+  2651    2.57 

64.6 

-  18.828-.  161 

+  .20 

—  .065       o 

.08      .31     .16 

40  LeonisMin* 

2853 

+  46  43  45  -88 

73-7 

—  18.841—  .172 

+  .25 

-.074+    i 

.07       .34    .14 

2854 

+  23  42  42.91 

79-6 

-18.772-.  159 

+  .20 

+  .005       o 

.04      .23     .08 

41  LeonisMin 

2855 

-23    130.85 

77-o 

-18.758-.  138 

+  •13 

+  .022       o 

•13      -91    -34 

2856 

-32  ii  31.81 

80.2 

-18788-.  134 

+  .12 

—  .008       o 

•ii      -55    -20 

78  G  Antliae 

2857 

+  46  43  56.99 

73-2 

-18.853-.  171 

+  .25 

-.071+   i 

.09      .44    .19 

2858 

+  5  16  20.66 

56.8 

-18.815-.  151 

+  •17 

-  -033       o 

.IO         .36      .22 

35  Sextantis* 

2859 

-63  s63S-27 

76-5 

-18.791-.  099 

+  .06 

+  .007       o 

.12         .53      .22 

221  G  Cannae 

2860 

-5841  31.37 

78.0 

—  18.822—  .109 

+  .07 

—  .020         0 

.12         .57      .22 

222  G  Carinae 

2861 

-3832    4.03 

89.4 

-18.814-.  128 

+  .11 

—  .004       o 

.15        .77      .22 

2862 

-6352  13.88 

71.9 

—  18.811—  .099 

+  .06 

+  .009       o 

.08        .34     .l6 

2863 

-60    231.72 

82.6 

-18.837-.  105 

+  .07 

—  .007       o 

.12         .57      .20 

224  G  Carinae  w 

2864 

+  3    049-97 

62.3 

-18.863-.  146 

+  -I7 

-  .025       o 

.09         .43      .22 

36  Sextantis 

2865 

+  57  53  36-31 

49.1 

-  18.908-.  180 

+  -30 

—  .067      o 

.ii      -35    -24 

41  Ursae  Maj 

2866 

+  31  12  32.41 

83-1 

-18.888-.  158 

+  .21 

—  .041      o 

.04      .26    .08 

42  LeonisMin 

2867 

-63  26  10.31 

84.8 

—  18.848—  .099 

+  .06 

+  .005      o 

•  15      -73    -24 

229  G  Carinas 

2868 

+  6  54    0.81 

66.2 

—  18.902—  .146 

+  •17 

-  .038      o 

.06        .22      .11 

37  Sextantis 

2869 

+  1925    7.50 

63.0 

—  18.916—  .152 

+  .I9 

—  .048       o 

.IO         .42      .22 

51  Leonis  m 

2870 

+  1443  21.34 

64-3 

—  18.950—  .148 

+  .18 

-  .079      o 

.08         .33      .I? 

52  Leonis  k 

2871 

-59    93i-32 

67.9 

-  18.871-.  106 

+  .07 

+  .OO2         O 

.06         .31..  14 

jM  to  ^M^ 

2872 

-25  31  22.67 

85-1 

-18.863-.  130 

+  •13 

+  .033+  I 

.13         .82      .24 

250  G  Hydrae 

2873 

—  16  46  10.45 

7i-3 

-18.915-  .135 

+  .14 

—  .019      o 

.11         .46     .21 

Hydra;  b1 

2874 

+  6  52  26.32 

66.4 

-18.927-.  143 

+  -I7 

—  .027       o 

.06        .20     .11 

38  Sextantis 

2875 

-  48  53  30-48 

79-9 

—  18.970—  .116 

+  .09 

-  -059       o 

.08        .37      .14 

Russell  7""  2"  63° 

2876 

-63  59  16.79 

88.9 

—  18.949—  .096 

+  .06 

-  -033      o 

.16        .87      .24 

236  G  Carinse 

2877 

-15    554-00 

83-7 

-18.973-.  134 

+  .14 

—  .056      o 

.11         -41      .15 

2  1473-    9M  3i"  10° 

2878 

-63  44  n-22 

85-4 

—  18.922—  .097 

+  .06 

.000      o 

•15      -75    -24 

237  G  Carinae 

2879 

-56  13  48.10 

81.4 

—  18.945—  .108 

+  .08 

—  .021          O 

.14     .63    .23 

230  G  Velorum 

2880 

-63  51  23.09 

88.6 

—  18.944—  .096 

+  .06 

—  .012      o 

.16      .86    .24 

238  G  Cannae 

2881 

+  29  56  42.66 

75-o 

—  18.992—  .150 

+  .21 

-  -°53       o 

.10      .35    .16 

43  LeonisMin 

2882 

-   8  34  15.66 

7°-3 

-18.982-.  135 

+  •15 

—  .029       o 

.11      .46    .21 

39  Sextantis 

2883 

+  11    427-56 

74-8 

-18.988-.  142 

+  •17 

-  -033       o 

.03      .20    .08 

53  Leonis  I 

2884 

—  27  23  23.02 

88.1 

—  18.954—  .126 

+  •13 

+  .007       o 

.14      .98    .26 

253  G  Hydrae 

2885 

-   3  29  42.74 

65.8 

-18.974-.  136 

+  -IS 

-.013       o 

.09      .34    .17 

40  Sextantis* 

2886 

-79  5629-51 

73-o 

*—  18.993—  .020 

+  .08 

—  .029+   I 

.10        .49     .21 

25  G  Chamasleontis  8  *  * 

2887 

+  2830    6.81 

67.0 

—  18.945—  .148 

+  .21 

+  .O2  1          O 

.O?        .31      .15 

44  Leonis  Min 

2888 

-  15  40  13.30 

70.8 

-18.781-.  131 

+  .14 

+  .193          ° 

.05        .27      .12 

2889 

—  80    o  46.05 

76.4 

—  18.983—  .020 

+  .08 

-.004+  I 

.06        .42      .15 

26  G  Chamaeleontis  82 

2890 

+  57    6  42.01 

52-3 

-  18.987-.  166 

+.28 

-.003       o 

.12         .33      .22 

43  UrsaeMaj 

2891 

+  5951    4.08 

60.8 

—  19.042—  .170 

+.30 

-  .056       o 

.08        .28     .16 

42  Ursae  Maj 

2892 

-    8  22      4.64 

77-8 

—  19.009-.  132 

+•15 

—  .018       o 

.08        .40     .15 

41  Sextantis* 

2893 

-3331  45-05 

74.1 

—  18.987—  .122 

•+.M 

+  .004       o 

.14        .60     .26 

80  G  Antliae 

2894 

-I748     8.37 

77-2 

—  19.009—  .127 

+  .14 

+  .008       o 

.12         .47      .20 

2895 

+  53    5  48.41 

58.0 

-19.046-.  159 

+  .26 

—  .021       o 

.12         .45      .26 

2896 

+  53    2    8.26 

61.3 

-19.088-.  158 

+  .26 

—  .062      o 

.12        .44     .24 

2897 

+  7023  12.72 

79-6 

—  19.100—  .180 

+  .41 

-.071+  3 

•07      -43    -i5 

2898 

+  55    7    o-22 

67.1 

-19.070-  .157 

+  .27 

—  .018       o 

.09        .27      .15 

44  Ursae  Maj 

2899 

+  3445  14.23 

72.9 

-19.348-.  144 

+  .22 

—  .290      o 

.04        .23      .09 

46  Leonis  Min 

2900 

+  43  43  20.41 

60.4 

—  19.107—  .148 

+  •23 

-  -035      o 

.06        .24     .14 

2892  h  838. 


n8 


PRELIMINARY   GENERAL   CATALOGUE   OF   STARS   FOR    1 900 


BTo. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

|i  and  100  A  n 

Prob.  Errors. 
a  Ep.      ioo(i     a,  10 

M 

h     m          s 

s                s 

S 

s 

it              //           it 

2901 

L  4S°7 

5-6 

10  48  24.999 

88.8 

+  2.4462  +  .0239 

+  .025 

—  .0007       o 

.20          .94        .28 

2902 

Br  1513 

5-4 

48  35.927 

77-9 

+  2.  9320+.  0072 

+  .OIO 

+  -0055       o 

•07        -33      -i3 

2903 

Pulkw  1694 

6.0 

48  38.208 

85-9 

+  3.0546-  .001  1 

+  .008 

—  .0063       o 

.10        .50      .16 

2904 

Br  1512 

6-3 

49  I6-355 

80.2 

+  3.  2657-.  0176 

+  .OI2 

—  .0048      o 

.12             .34         .16 

2905 

Brisb  3272 

6.9 

49  18.709 

87.7 

+  2.41  1  1  +  .0247 

+  .026 

—  .0028       o 

.16        .86      .25 

2906 

Lai  20978 

6.0 

49  19-865 

99-4 

+  2.9776+.  0044 

+  .009 

+  .0006       o 

.15      1.05      .19 

2907 

Br  1511 

5-9 

49  24.727 

77-3 

+  3-3467-.  0252 

+  .015 

—  .0048       o 

.11        .34      .16 

2908 

L  45iS 

3-8 

49  25-79i 

77-5 

+  2.4237  +  .025I 

+  .026 

+  .0078-  I 

.11        .52      .20 

2909 

Br  1515 

4-5 

50  12.005 

71.0 

+3.  2561-.  0170 

+  .012 

-  -0055       o 

.08        .32      .14 

2910 

Br  1514 

5-2 

50  12.189 

76-9 

+  3-3347-  -0245 

+  .015 

—  .0084       o 

.13        .69      .26 

2911 

L  4518 

6-5 

50  28.834 

87.0 

+  2.7i33  +  .oi78 

+  .OI6 

-.0031       o 

.13      1.18      .30 

2912 

Pi  191 

6-3 

5032-235 

71.7 

+  3-4394-  -0345 

+  .021 

+  .0010          0 

.20        .62      .31 

2913 

Br  1517 

6.1 

So  33-720 

60.6 

+  3.0880—  .0025 

+  .009 

+  .0068       o 

.10        .46      .25 

2914 

Br  1516 

7-6 

50  36.366 

85.8 

+  3.2024—  .0124 

+  .OIO 

—  .0047       o 

.12             .45          .16 

2915 

Br  1519 

6-3 

50  49.960 

66.5 

+  3.ii77-.oo53 

+  .009 

—  .0014       o 

.14            .46         .25 

2916 

Br  1520 

7.2 

51    2.811 

60.4 

+  3.0792-.  0023 

+  .009 

+  .0002       o 

.14            .52          .29 

2917 

T  Carinaa 

Var. 

5i  I7-530 

87.7 

+  2.  3876+.  0260 

+  .028 

—  .0015       o 

.18            .93         .27 

2918 

Br  1508 

6-5 

51  57.802 

79-7 

+  4.9362-.  3082 

+  .660 

—  .0249+10 

.05             .32          .11 

2919 

i  Antliae 

4-7 

52    3-423 

81.8 

+  2.  7897  +  .0156 

+  .014 

+  .0073       o 

.09            .42          .15 

2920 

Br  1522 

5-3 

53  52-078 

63.2 

+  3-3745-  -0315 

+  .O2O 

—  .O28O+     2 

.08            .27         .15 

2921 

Pi  203 

6.4 

53  58.092 

74-3 

+  3.3611—  .0271 

+  .OI6 

+  .0064—    I 

.13            .90         .34 

2922 

Groomb  1722 

5-7 

54  30.228 

63.1 

+  3  -4647  --0392 

+  .025 

+  .0014       o 

.16            .69         .36 

2923 

L  4540 

6.0 

54  30.489 

86.0 

+  2.8280+.  0142 

+  •013 

+  .OO22          O 

.12            .82         .23 

2924 

Groomb  1723 

6-3 

54  40-536 

78.2 

+  3-4i85-  -0352 

+  .O2  2 

—  .0099       o 

.11             .54         .20 

2925 

o  Crateris 

4.2 

54  54.099 

76.9 

+  2.9197  +  .0067 

+  .OIO 

—  .0326—     I 

.06            .30         .12 

2926 

Br  1524 

5-2 

55  I4-312 

61.6 

+  3-3765-  -0304 

+  .019 

—  .0057       o 

.14            .39         .24 

2927 

Br  1526 

5-i 

55  23-783 

74-3 

+  3.0999-  .0037 

+  .009 

+  .0006      o 

.04        .27       .10 

2928 

Br  1527 

5-2 

55  33-826 

63-9 

+  3.  1119-  .0051 

+  .009 

—  .0036       o 

.09            .39         .20 

2929 

L  455° 

4.6 

55  33-9ii 

85.8 

+  2.  7442  +  .  Ol86 

+  .OI6 

+  .O02I          0 

.12            .75         .22 

2930 

j8  Ursae  Maj 

2.2 

55  48.619 

74-9 

+  3.6497-  .0624 

+  .049 

+  .OIO2—     I 

.03            .15          .06 

2931 

Br  1530 

5-i 

56  43-632 

80.9 

+  3.o6l2—  .OOO6 

+  .009 

+  .OOI2         0 

•o?        -39      -13 

2932 

Br  1529 

4-4 

56  59-S38 

71.6 

+  3-2o85--oi34 

+  .OIO 

—  .ooxi       o 

.10        .39      .18 

2933 

a  Ursae  Maj 

i-7 

57  33-64I 

66.8 

+  3  -7403  -.0805 

+•075 

-.0168+     2 

.03            .12         .06 

2934 

Br  1531 

6.4 

57  33-891 

82.1 

+  2.8991  +  .  on  i 

+  .OII 

+  .0044       o 

.10     •  .50      .17 

2935 

Lai  21185 

7-8 

57  52-396 

83.8 

+  3.2916—  .0286 

+  .017 

—  .0469—   8 

.08           .52         .16 

2936 

Pi  225 

6.4 

58    7.630 

81.8 

+  3.0708—  .0014 

+  .009 

—  .0002       o 

.IO           .44         .l6 

2937 

Par  13527 

5-8 

58  14-758 

97-o 

+  2.9995  +  .0037 

+  .009 

—  .0052      o 

.14         I.O4         .29 

2938 

Br  1533 

6.2 

58  29.493 

74.2 

+  3.0713-  .0017 

+  .009 

—  .0044       o 

.10        .39      .17 

2939 

L  4S7i 

6.8 

58  30.088 

83-5 

+  2.853i  +  .oi37 

+  .OI2 

—  .0028      o 

.13            .69         .22 

2940 

Br  1532 

6.1 

58  57-749 

74.0 

+  3.3488-  .0289 

+  .OI8 

—  .0061       o 

.10        .34      .16 

2941 

Pi  228 

7-8 

59  10.411 

87-3 

+  3.3466-  .0288 

+  .OI8 

—  .0074+  I 

.12            .48         .l6 

2942 

X  Leonis 

4-7 

59  5J-549 

75-6 

+  3.0970-  .0055 

+  .009 

-.0233       o 

.03            .l6         .06 

2943 

Br  1534 

7.8 

10  59  55-3M 

76.8 

+  3.2096—  .0166 

+  .OI2 

—  .0297+  I 

.08            .28         .12 

2944 

j;  Octantis 

6.4 

ii    o    1.18- 

78.6 

-  0.291  --.330- 

—  .042-  —40 

.06            .56         .18 

2945 

L  4584 

6.1 

o    1.228 

85.6 

+  2.6875  +  .O22I 

+  .O2O 

—  .0122—    I 

.l8         1.32         .37 

2946 

L  4580 

5-7 

o  10.744 

80.9 

+  2.  8269+.  0159 

+  .014 

-^.0015       o 

.16            .99         .33 

2947 

X1  Hydrae 

5-2 

o  30.769 

75-2 

+  2.8841  +  .0115 

+  .OII 

-.0153-  I 

.IO            .38         .16 

2948 

X2  Hydras 

5-9 

i    6.575 

78.4 

+  2.9O29+.oii7 

+  .OII 

+  .0017      o 

.12            .54        .21 

2949 

Br  !537 

7-i 

i  42.426 

86.6 

+3.  2322-.  0170 

+  .OI2 

—  .0047       ° 

.11            .39        .14 

2950 

Br  1539 

S-8 

ii    i  48.192 

74-4 

+  3.0619—  .0026 

+  .009 

—  .0251       o 

.06           .27         .11 

2908     7«?6  fols.     1*8,  N  62". 
2913  /3  1076.     IOM  o"8  32°,  slow. 


2009  S  1487. 
2917  6"C2 


7M  6"  106° 


CATALOGUE  OF  6 1 88  STARS  FOR  1900 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

|i'  and  100  A|i/ 

Prob.  Errors. 
SEp.  loop'  Sio 

Remarks. 

Of                 ft 

//           // 

L" 

• 

//         n       it 

290  1 

-5642  32.46 

80.9 

—  19.071—  .102 

+  .08 

+   .006    o 

.15      .60    .23 

244  G  Cannae 

2902 

—  1936      1.  12 

73-7 

-19.323-.  123 

+  .14 

—    .241     o 

.08      .39    .16 

Hydra  6s 

2903 

-     I   3552-I5 

83-7 

—  19.079—  .128 

+  .16 

+   .004    o 

.09      .42    .14 

2904 

+  26      I   23.11 

75-7 

—  19.106—  .136 

+  .20 

—    .006    o 

.11      .35    .16 

48  Leonis  Min 

2905 

—  58  21  41.26 

85-9 

—  19.104—  .098 

+  .08 

-    .003    o 

.14        .71      .22 

245  G  Carinee 

2906 

-J3  J3  33-39 

97-9 

-19.073-.  124 

+  •15 

+   .028     o 

.16      1.15      .21 

2907 

+  3434    6.59 

75-6 

—  19.172—  .140 

+  .21 

-   .068    o 

.10      .35    .16 

47  Leonis  Min 

2908 

-58  19  19.37 

74-8 

—  19.082—  .099 

+  .08 

+   .022     o 

.09        .42      .17 

246  G  Cannae  w* 

2909 

+  25  1659.35 

69-3 

-19.141-.  134 

+  .19 

—    .017     o 

.06         .26      .12 

54  Leonis* 

2910 

+  34    2  26.51 

67-3 

-19.169-.  137 

+  .21 

-  -045    ° 

.11         .43      .21 

2911 

-41  43    4-98 

87.2 

—  19.148—  .no 

+  .11 

—    .016    o 

.12      I.I7      .29 

235  G  Velorum 

2912 

+42  32  38.98 

7i-3 

-I9-233--I42 

+  •23 

—    .100    o 

.14         .45      .22 

2913 

+     I    l6  12.  2O 

52-8 

—  19.145—  .126 

+  .16 

—   .on     o 

.08        .33      .21 

55  Leonis* 

2914 

+  1841    8.85 

79-9 

-19.125-.  131 

+  .18 

+   .010     o 

.11         .37      .16 

(49  Leonis  Min) 

2915 

+  6  43    8.47 

51-2 

—  19.151—  .127 

+  -I7 

—    .010    o 

.10      .30    .20 

56  Leonis 

2916 

+  o  57  59.48 

55-5 

-19.153-.  125 

+  .16 

—   .007    o 

.11         .46      .27 

57  Leonis 

2917 

-59  59    9-02 

83-8 

-  19-079-  -°95 

+  .08 

+   .074    o 

.15         .71      .24 

249  G  Cannae* 

2918 

+  78  18  21.40 

81.3 

—  19.197—  .201 

+  .64 

-  .027+1 

•05      -33    •" 

2919 

-3636    0.55 

79-3 

-I9.3II-.  Ill 

+  .12 

-   -J39    o 

.09      .41    .16 

2920 

+  40  57  51.47 

63-5 

—  19.168—  .131 

+  .22 

+   .050+1 

.07      .27    .14 

47  UrsaeMaj 

2921 

+  36  37  48.76 

67.9 

-19.276-.  131 

+  .21 

—    .056     o 

.13      .67    .31 

2922 

+  46    3  44-39 

60.2 

-19.229-.  134 

+  .23 

+   .005     o 

•15      -58    -33 

2923 

-33  12    0.95 

78.0 

—  19.287—  .IO8 

+  •13 

-    -°53     o 

.12         .52      .21 

259  G  Hydras* 

2924 

+  43  27    4.51 

74-5 

-19.380-.  132 

+  -23 

—   .142    o 

.IO         .42      .l8 

2925 

-1745  58.53 

75-9 

—  19.123—  .no 

+  .14 

+    .121+1 

.06         .25      .IO 

2926 

+  394456.88 

62.4 

—  19.283-.  129 

+  .22 

-   -031     o 

.11         .40     .22 

49  Ursae  Maj 

2927 

+  49  !5-83 

71.6 

-19.277-.  117 

+  •17 

—   .021     o 

.04        .21      .09 

58  Leonis  d 

2928 

+  6  38  19.26 

54-o 

—  19.290—  .118 

+  •17 

-    .030    o 

.07        .29     .l8 

59  Leonis  c 

2929 

—  41  41  22.42 

82.6 

-19.267-.  103 

+  .12 

—    .007     o 

.10      .56    .18 

239  G  Velorum  i 

2930 

+  5655    6.48 

71.9 

-19.238-.  139 

+  .27 

+   .028    o 

.03         .15      .07 

2931 

-    i  56  46.52 

73-9 

-19.325-.  113 

+  .16 

-    -037     o 

.07         .34     .14 

6  1  Leonis  p* 

2932 

+  20  42   58.28 

75-5 

—  19.270—  .119 

+  .18 

+   .024    o 

-07         -33      -14 

60  Leonis  b 

2933 

+  62   17   27.18 

61.7 

-19.381—  .138 

+  .3° 

-  .074+1 

.02         .12      .06 

(3  1077.     IOM  o"6  284°,  slow 

2934 

—  26   17   24.80 

78.8 

—  19.432—  .106 

+  .14 

—   -125    o 

.10      .45    .17 

2935 

+  363824.53 

81.3 

—  24.061—  .118 

+  .21 

-4.746+2 

.07         .46      .15 

PulkM  1720  * 

2936 

—    O  12  39.86 

77.2 

-19.433-.  in 

+  .16 

—     .112       O 

.09         .39      .16 

2937 

-  10  45  43.99 

94.6 

-  19.435-.  108 

+  -i5 

—     .112      O 

.13      .86    .18 

2938 

+  032  15.31 

70.4 

-  19.329-.  no 

+  .16 

.000      O 

.08      .38    .17 

62  Leonis  ps 

2939 

—  31  25  18.00 

75-6 

—  19.360—  .102 

+  -I3 

-   .031     o 

.13      .61    .25 

263  G  Hydrae 

2940 

+  38  46  48.46 

69.9 

-I9.345-.  120 

+  .21 

—   .005    o 

.09      .32    .16 

51  UrsaeMaj* 

2941 

+  3847    8.ii 

84-5 

-I9.332-.  120 

+  .21 

+   .013     o 

.12        .46     .17 

2942 

+   7  52  35-91 

72.4 

—  19.407—  .IO8 

+  -I7 

-  .047+1 

.03        .16     .07 

2943 

+  25  44  34-29 

73-i 

-19.444-  .112 

+  .I9 

-  .082  +  1 

.07         .26      .12 

51  Leonis  Min 

2944 

-84    3  21.32 

82.0 

—  I9-378  +  .O2I 

—  .014+2 

.05         .40      .12 

2945 

-47    827.09 

82.5 

-  19.349-  -°93 

+  .12 

+   .015    o 

.I4         .95      .30 

247  G  Velorum 

2946 

-35  iS  55-48 

75-4 

-19.363-.  098 

+  •13 

+   .005    o 

.17      1.27      .47 

85  G  Antliae 

2947 

-2645  13-95 

78-5 

-  19.388-  .099 

+  .14 

-  .013  +  1 

•°9      -37    -IS 

X  Hydrae.    Br  1536 

2948 

-  26  44  50.93 

73-5 

—  19.418—  .099 

+  .14 

—   .029    o 

.11         .48      .21 

Br  1538 

2949 

+  26    4  40.48 

80.4 

-I9-433—  -110 

+  .19 

-   -031     o 

.10      .34    .14 

52  Leonis  Min 

2950 

+   2  29  54.10 

7i-3 

-19.491  -.103 

+  •17 

-  .087+1 

.06         .24      .11 

65  Leonis  (f,  p3,  ft)  * 

2923  Innes. 
2940  Hough. 


I2M  8"  247° 


2935  Parallax.     o'/5o.     22  H  Camelop. 
295°  ft  599-     Ia""  2"  9°°>  very  s'ow- 


I2O 


PRELIMINARY  GENERAL  CATALOGUE   OF  STARS   FOR    1900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3«t 

H  and  100  A  p. 

Prob.  Errors. 
aEp.      100  (i    aio 

M 

h    m         s 

s               s 

s 

s 

ir               /'              n 

2QSI 

Br  1540 

6.7 

II      2  18.642 

69-5 

+3-2194-  -0154 

+  .OI2 

—  .0002       o 

-IS            .58         -28 

2952 

L  4611 

4-7 

2  26.366 

84.6 

+  2.4474+.03H 

+  -°35 

-.0033-    i 

.16        .88      .28 

2953 

Radcl  2612 

7-5 

2  29.98- 

85.8 

+8.014-  —  1.832- 

-.031-  +44 

.08        .51      .14 

2954 

L  4603 

5-4 

2  39.161 

89.0 

+  2.  7678+.  0198 

+  .017 

—  .0055      o 

.14        .87      .23 

2955 

L  4625 

5-9 

3  13-187 

91.4 

+  2.I488+.03I4 

+  .048 

—  .0064—     2 

.15        .98      .24 

2956 

Br  1541 

5-8 

3  27.230 

70.7 

+  3.2261—  .0163 

+  .OI2 

+  .0002       o 

.IO           .44         .20 

2957 

Br  1544 

5-6 

3  53-591 

75-3. 

+  2.8973  +  .OI22 

+  .OI2 

—  .0061       o 

.IO           .40        .18 

2958 

tj/  Ursae  Maj 

3-° 

4    2.627 

75-i 

+  3-39°4--0364 

+  .024 

-  -0055       o 

.03            .14         .06 

2959 

Br  1543 

7-i 

4    7-346 

69.4 

+  3.0638—  .0008 

+  .009 

—  .0041       o 

.11            .56        .25 

2960 

L  4627 

3-9 

4  19.007 

89-5 

+  2.  5466+.  0301 

+  .032 

-..0024       o 

-15           -98         -25 

2961 

L  4629 

5-5 

4  24.151 

92-3 

+  2.  4788  +  .03  1  7 

+  •035 

—  .0046—    I 

.20        I.I7         .28 

2962 

L  4623 

6.0 

5    4-928 

81.6 

+  2.8766+.OI46 

+  .013 

+  .0011       o 

.13            .8l         .26 

2963 

Pi  257 

6.9 

5  43-012 

86.7 

+  3.5089-  .0539 

+  .042 

—  .0062  +    I 

.09           .48         .15 

2964 

ft  Crateris 

4.6 

6  44-345 

79.0 

+  2.9463  +  .0099 

+  .OII 

+  .OOOI         0 

.05            .22         .09 

2965 

L  4649 

5-8 

7  59-626 

83.6 

+  2-7I98  +  .0247 

+  .022 

—  .01  20—    I 

.18           .98         .32 

2966 

L  4652 

4-7 

8  18.541 

90.0 

+  2.  5607  +  .03  26 

+  •035 

+  .0013       o 

.20         I.O4         .28 

2967 

Pi  9  m 

7.2 

8  25.857 

69.6 

+  3-I577--OI25 

+  .OIO 

—  .0272+   I 

.IO            .48         .22 

2968 

L  4651 

6.0 

8  34.917 

87.9 

+  2.  7869+.  O2I9 

+  .020 

.0000       o 

.18         1.23         .33 

2969 

L  4657 

5-6 

8  36.872 

89.4 

+  2.4690+.  0349 

+  .041 

—  -.0041—    I 

•15        -93      -24 

2970 

Br  1547 

5-6 

8  38.444 

71.2 

+  3.0723-.  0012 

+  .009 

-  .0025       o 

.08      .36     .16 

2971 

Dpt  1287  maj. 

7-9 

8  38.817 

69.8 

+  4.OI44—  .1650 

+  .280 

-.0947+33 

.09        .45      .20 

2972 

8  Leonis 

2-5 

8  47.479 

70-5 

+  3-  1970-  .0132 

+  .OII 

+  .0106—    I 

.03        .14      .06 

2973 

Pi  12 

6.2 

8  50.054 

73-4 

+  3.II97-.  0055 

+  .009 

+  .0026       o 

.09            .46         .20 

2974 

0  Leonis 

3-3 

8  59.611 

80.4 

+  3.  1525-.  0098 

+  .OIO 

-  .0043       o 

.04            .24         .08 

2975 

L  4656 

6.0 

9    9-594 

89-9 

+  2.6870+.  0279 

+  .O26 

+  .0005       o 

.20         I.O5         .29 

2976 

Br  1549 

4.8 

9  53.216 

67.6 

+  3.1981—  .0148 

+  .OI2 

—  .OOI  I          0 

.10        .39      .19 

2977 

Groomb  1755 

6.8 

10  18.916 

77-4 

+  3-4770-  -OSes 

+  .039 

+  .0188-     2 

.10        .45      .18 

2978 

Br  1550 

5-7 

10  38.054 

7i-3 

+  3.1422—  .0084 

+  .OIO 

—  .0006      o 

.09            .30         .14 

2979 

Pi  22 

7-0. 

10  44-396 

76.4 

+  3-I377-  -0°8i 

+  .OIO 

-  .0025       o 

.IO            .51          .20 

2980 

Pi  19 

6.1 

II   3-834 

84.8 

+  3.4009-  .0432 

+  .032 

-.0093+  I 

.05            .38         .11 

2981 

L  4673 

7-4 

II  23.437 

92.6 

+  2.8293  +  .O2O2 

+  .017 

—  .0030       o 

.15            .90         .22 

2982 

<£  Leonis 

4.6 

II  34-655 

70.6 

+  3.  0496  +  .0008 

+  .009 

-  .0075       o 

.06            .28         .13 

2983 

Br  1552 

5-6 

12      8.626 

62.9 

+  3.0879—  .0021 

+  .009 

+  .0032       o 

.09            .33         .18 

2984 

£  Ursae  Maj  e.g. 

12  51.015 

73-3 

+3.2103—  .0209 

+  .015 

-.0333+  I 

2985 

v  Ursae  Maj 

3-5 

13    4-744 

77-o 

+3.  2513-  .0225 

+.016 

—  .0018       o 

.04            .l8         .07 

2986 

Pi  32 

7-7 

13  11-498 

81.9 

+3.  1039+.  0016 

+  .009 

+  .0530      o 

.10        .68      .22 

2987 

Br  1555 

4.8 

13  40.982 

57-9 

+3.  2826-  .0275 

+  .019 

—  .0049       ° 

.12           .39         .23 

2988 

Br  1556 

6.2 

13  46.998 

65-7 

+  3.0792—  .0018 

+  .009 

-  .0034      o 

.11            .36         .20 

2989 

8  Crateris 

3-8 

14  20.437 

69-5 

+  2.9967  +  .0065 

+  .OIO 

—  .0085       o 

.03           .l6         .07 

2990 

rr  Leonis 

4-2 

15  58-830 

74.0 

+  3-0955--°°40 

+  .009 

—  .0063       o 

.03           .18         .07 

2991 

L  4724 

6-5 

16    0.312 

86.9 

+  2.  1392  +  .  0416 

+.079 

-.0078-   3 

.15           .90        .26 

2992 

IT  Centauri 

4.2 

16  26.720 

73-8 

+  2.  72l6+.  0307 

+  .029 

—  .0040—    I 

.12           .46         .21 

2993 

Pi  43 

6.1 

16  54-992 

83-4 

+  3.6042—  .0849 

+.093 

—  .0007       o 

.05           .39         .11 

2994 

Arm  2465 

7-3 

17  15.016 

89-3 

+  3-1457-  -OI°5 

+  .OII 

—  .0071  '    o 

.09           .58         .15 

2995 

Br  1559 

5-i 

17  20.437 

57-3 

+  3-3087-  -°334 

+  .024 

—  .0027       o 

.12           .39         .24 

2996 

L  4728 

5-i 

18  22.036 

84.4 

+  2.8969+.  0182 

+  •015 

—  .0025       o 

.15        .86      .27 

2997 

A  Crateris 

5-3 

18  24.360 

68.2 

+  2.  97IO+.  OO86 

+  .OII 

—  .0219—    I 

.09           .36        .17 

2998 

L  4734 

6.2 

18  35-554 

87.1 

+  2.  7101  +  .0333 

+•033 

—  .0031       o 

.15           .87         .25 

2999 

i  Leonis 

4.0 

;8  42.706 

72.4 

+  3.1297—  .0064 

+  .OIO 

+  .0105      o 

.04           .20        .08 

3000 

Br  1562 

5-7 

ii  18  54.404 

70.0 

+  3.0784—  .OOI4 

+  .009 

—  .0021       o 

.09           .40        .19 

2954  h  4409-     9M  2"  27°°- 


2966  h  4414.     IOM  22"  275° 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


121 


Ho. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'  and  loo  A  H.' 

Prob.  Errors. 
SEp.  ioo|i'  Sio 

Remarks. 

2951 

o        /           // 

+  23  51  51.12 

65-3 

//             n 
—  19.418—  .109 

+  .19 

-  .003       o 

.13      .44    .24 

64  Leonis 

2952 

-61  53    1.60 

77-4 

—  19.414—  .080 

+  .08 

+  .004       o 

.12         .58      .22 

257  G  Carinae  z 

2953 

+  86  10  57.97 

81.2 

—  19.421—  .281 

—  .002+   I 

.10      .57    .19 

2954 

-42    556.05 

83.8 

-19.378-  .091 

+  .12 

+  .044      o 

.11         .DO      .19 

4  G  Centauri  * 

2955 

—  70  20  13.22 

89.1 

—  19.449—  .068 

+  .06 

—  .014      o 

.12         .73      .19 

259  G  Carinae 

2956 

+  25  ii  59.25 

70.7 

-19.442-.  107 

+  .19 

—  .002      o 

.08        .35      .16 

67  Leonis,  53  Leonis  Min 

2957 

-2732  18.78 

78.9 

-I9-475--°94 

+  .14 

—  .026      o 

.IO        .41      .16 

271  G  Hydrae 

2958 

+  45    2  27.88 

71-3 

—  19.490—  .in 

+  .22 

-  .038       o 

.03         .15      .07 

2959 

—  o  47  28.81 

69.1 

—  19.460—  .100 

+  .16 

—  .006      o 

.IO        .41      .20 

66  Leonis 

2960 

-58  25  59.90 

84-3 

—  19.460—  .081 

+  .09 

—  .002      o 

.12         .6l      .20 

260  G  Carinae  * 

2961 

—  61  24  19.89 

81.2 

-I9-459-  -078 

+  .09 

+  .OOI         0 

.15         .63      .24 

261  G  Carinae 

2962 

-31  49  28.67 

76.9 

-19.528-  .091 

+  •13 

-  -054      o 

.12         .71      .26 

272  G  Hydrae 

2963 

+  5441  27.87 

84-5 

-19.457-.  112 

+  .24 

+  .030      o 

.09         .39      .13 

2964 

—  22  l6  47.50 

80.4 

—  19.609—  .091 

+  .14 

—  .IOI         0 

.05         .25      .09 

2965 

-4833  29.65 

77.1 

—  19.509—  .081 

+  .12 

+  .024      o 

.14         .65      .26 

9  G  Centauri 

2966 

-594625.33 

79-8 

-  19-544-  -075 

+  .10 

-.005       o 

-14      -59    -23 

263  G  Carinas  y  * 

2967 

+  204034.36 

66.0 

—  19.688—  .094 

+  .18 

-.147+  I 

.08      .32    .16 

3  1517.  8Mo-8Mo  o'.'s  375°,  alow 

2968 

-43  49  41.69 

87.6 

—  19.578—  .082 

+  .12 

—  -034       o 

.15    1.17    .30 

ii  G  Centauri 

2969 

-63  37  33-20 

86.3 

-19.551-.  072 

+  .09 

—  .006      o 

.12         .6l      .19 

264  G  Carinae 

2970 

+  o  28  28.15 

69.8 

-19-557-  -091 

+  .16 

—  .on      o 

.07         .30      .14 

69  Leonis  />5 

2971 

+  74    i    0.42 

74.6 

-19.439-.  119 

+  •39 

+  •107+  3 

.08         .41      .I? 

* 

2972 

+  21    4I7-57 

68.5 

-19.693-.  095 

+  .18 

-.145      o 

.02         .13      .06 

2973 

+j»8  36  28.25 

71.1 

-19.673-.  093 

+  -I7 

—  .124      o 

.08         .40      .18 

2974 

+  15  5834.05 

74-8 

-  19.638-  .093 

+  .18 

-  .086       o 

.04         .20      .08 

2975 

—  52  41  18.20 

84.1 

—  19.522—  .078 

+  .11 

+  -034      o 

.14         .71      .23 

13  G  Centauri 

2976 

+  23  38  26.09 

61.0 

—  19.580—  .092 

+  .19 

—  .010      o 

.08         .33      .18 

72  Leonis 

2977 

+  53  18  59-85 

68.6 

-  19.530-.  101 

+  .24 

+  .048-  I 

.08         .32      .l6 

S  1520.     8"  13"  345° 

2978 

+  13  51  10.48 

67.8 

—  19.610—  .090 

+  .18 

—  .026      o 

.09         .28      .15 

73  Leonis  n 

2979 

+  13  23  29.22 

76-3 

—  19.665—  .089 

+  .18 

-  .079       o 

.IO         .52      .20 

2980 

+  50    i  19.20 

79-2 

—  19.611—  .096 

+  .22 

—  .019      o 

.06        .32     .12 

2981 

-40  28  33.23 

87.2 

—  19.622—  .078 

+  •13 

—  .024       o 

.16        .75      .23 

176  Centauri 

2982 

-   3    6  17.88 

68.3 

-  19.645     .085 

+  .16 

—  .044      o 

.06        .31      .14 

2983 

+   2  33  37.25 

57-8 

-19.  763-  .085 

+  •17 

—  .152       o 

.08        .28     .16 

75  Leonis 

2984 

+  32    5  30-34 

70-7 

—  20.222—  .086 

+  .20 

-.598+  I 

See  Appendix 

2985 

+  33  38  23-53 

70.9 

—  19.613—  .088 

+  .20 

+  .015       o 

.04       .20     .09 

S  1524.  IOM  7"  146° 

2986 

-   43059-97 

81.4 

-19.772-.  085 

+  .16 

—  .142—     2 

.09        .54     .18 

2987 

+  3844    2.47 

53-o 

-19.723-.  088 

+  .20 

—  .084      o 

.10      .39    .24 

55  UrsaeMaj 

2988 

+   2  ii  55.32 

55-i 

—  19.697—  .081 

+  •17 

—  .056       o 

.09    .28  .18 

76  Leonis 

2989 

-14  14  14.58 

70.4 

-19.455-  .078 

+  .16 

+  .195       o 

.03     .16  .07 

2990 

+  63438.48 

71.4 

-19.693-.  078 

+  .17 

—  .015       o 

.03    .17  .07 

' 

2991 

-74  35  42.02 

82.5 

-19.687-.  051 

+  .06 

—  .008      o 

.12         .6l      .21 

2  GMuscae 

2992 

-53  5635-I9 

72-4 

—  19.704—  .066 

+  .12 

—  .018       o 

.09        .38      .17 

2993 

+  64  52  40.06 

78.3 

—  19.658—  .090 

+  .27 

+  .036       o 

.05         .31      .11 

2994 

+  17  59    8.39 

85.6 

—  19.722—  .076 

+  .18 

-  .023      o 

.07         .51      .14 

71  Leonis 

2995 

+  44    i  52.47 

54-8 

-  19.725-.  081 

+  .21 

—  .024      o 

.10        .34     .21 

56  Ursae  Maj 

2996 

-35  36  58-24 

71.1 

—  19.749—  .068 

+  .14 

-  .032       o 

.14        .64     .29 

26  G  Centauri 

2997 

-18  13  49-52 

69-5 

-19.758-  .069 

+  •15 

—  .040+    I 

•09      -35    -17 

2998 

-56  13  50.75 

82.2 

-I9-735--°62 

+  .12 

—  .014       o 

.12         .59      .20 

27  G  Centauri 

2999 

+  n    448.15 

75-8 

—  19.807—  .074 

+.17 

-.085       o 

.04         .19      .08 

S  1536.  7M  2'.'6  55°,  binary 

3000 

+   i  57  23.93 

58-5 

-19.724-  .072 

+•17 

+  .OO2         O 

.08         .27      .l6 

79  Leonis 

2971  S  1516.   8*2  19"  98°;  I2M  7"  302°. 


122 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


Ho. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.  and  100  A  p. 

Prob.  Errors. 

aEp.      loop,     aio 

M 

h    m        s 

3                     S 

S 

s 

a              it           H 

3001 

L47372 

5-6 

II   19     2.O27 

88.0 

+  2.5752  +  .04I3 

+  -049 

—  .001  1       o 

.18          .96       .28 

3002 

t  Crateris 

5-2 

19  33-5I3 

71.8 

+  3.0273  +  .0048 

+  .010 

—  .0024       o 

.10        .39      .18 

3003 

L  4736 

6.7 

19  34-962 

92-5 

+  2.8583  +  .  0226 

+  -019 

—  .0020      o 

.14           .94        .22 

3004 

Pi  60 

6.2 

I947-758 

64-4 

+  3.1141—  .0068 

+    .010 

—  .0077       o 

•15           -63         -32 

3005 

y  Crateris 

4-2 

I9S3.II6 

72.8 

+  2.993  1  +  .0083 

+  .010 

—  .0075      o 

.06           .30        .13 

3006 

L  4744 

5.8 

20  11.856 

79-7 

+  2.3682  +  .0481 

+  .077 

—  .0056—     2 

•i5        -75      -27 

3007 

Pi  59 

6.0 

20  18.795 

76-5 

+  3.4117-.  0545 

+  .048 

—  .O072+     I 

.09        .40      .16 

3008 

Br  1565 

6.0 

20  23.584 

63.8 

+  3.1327-.  0097 

+  .010 

—  .0099       o 

.12           .54        .28 

3009 

Br  1566 

7-i 

20  31.053 

66.2 

+  3.0869—  .0024 

+  .009 

—  .0009      o 

.13           .48         .24 

3010 

L4739 

5-5 

20  38.467 

87.8 

+  2.8992  +  .0184 

+  .015 

—  .OIOI—     I 

.10        .68      .18 

3011 

Br  1567 

6.7 

20  41.711 

73-8 

+  3.0848—  .0026 

+  .009 

—  .0051       o 

.11        .32      .16 

3012 

L4752 

7.0 

.21   17.629 

87.4 

+  2.3149+.  0492 

+  .085 

—  .0188-  5 

.18        .82      .26 

3013 

L4747 

5-4 

21   23-335 

85.8 

+  2.578o+.o397 

+  .048 

—  .0464—   9 

.20            .78         .27 

3014 

Br  1568 

6-7 

21  41.623 

69.2 

+  3.0380—  .0020 

+  .009 

.  —  .0482         Q1 

.06            .24         .12 

3015 

Pi  71 

7-5 

21  42.639 

69-3 

+  3.  0383  -.0020 

+  .009 

—  .0478      o 

.IO            .44         .20 

3016 

L  4751  . 

5-6 

22      5.366 

82.2 

+  2.  6780+.  0387 

+  .042 

—  .0044—    I 

.16            .8l          .28 

3017 

K  Crateris 

6.2 

22      7.248 

78.0 

+  3.0192+.  0057 

+  .010 

—  .0072      o 

.07            .28         .11 

3018 

1,4748 

6.0 

22      7-734 

87-9 

+  2.78n  +  .O3ii 

+  .028 

—  .0036      o 

.20            .87          .27 

3019 

L  4749 

7-i 

22  40.423 

86.4 

+  2.  9646+.  0128 

+  .012 

-  -0053       o 

.13        .88      .25 

3020 

Pi  77 

6.6 

22  47-083 

68.2 

+  3.  065  2  +  .0004 

+  .009 

—  .0028      o 

.15        .57      .28 

3021 

T  Leonis 

5-3 

22  47.692 

7i-5 

+  3.0865—  .0020 

+  .009 

+  .0013      o 

.04           .21         .09 

3022 

Pi  74 

6.0 

23  21.914 

77-4 

+3.4617—  .0706 

+  -073 

—  .0162+   4 

.09           .46         .17 

3023 

Br  1571 

5-4 

23  41.101 

73-i 

+  3.  2442-.  0276 

+  .020 

—  .0044      o 

.09           .36         .16 

3024 

L47S4 

5-5 

23  46.073 

87.0 

+  2.8793  +  .0232 

+  .020 

—  .0028      o 

.16           .75         .24 

3025 

Br  1573 

6.2 

24  29.348 

60.4 

+  3.1292—  .0089 

+  .010 

—  .0022       o 

.12           .45         .26 

3026 

L4757 

5-9 

24  40.169 

93-8 

+  2.9776  +  .OI22 

+  .012 

-.0037       o 

.12         I.O4        .21 

3027 

Groomb  1782 

6.2 

24  47-934 

73-7 

+  4.4049-.  3770 

+  1.256 

-.0652+44 

.06           .34         .14 

3028 

Br  1574 

6.0 

25    6.535 

83-5 

+  3.  2613-.  0319 

+  .024 

—  .0048      o 

.06        .30      .10 

3029 

Br  1576 

5-i 

25  12.312 

72.8 

+  3.  0650  +.OO  1  2 

+  .009 

+  .0013      o 

.06            .27          .12 

3030 

Br  1575 

5-9 

25  15-995 

69.7 

+  3.1361—  .  'CIO? 

+  .on 

-  -0055       o 

.08            .34         .16 

3031 

X  Draconis 

4.0 

25  28.342 

69.6 

+  3.6126—  .IO93 

+  .151 

-.0074+     2 

.03            .15          .07 

3032 

Br  1577 

6.6 

26  35.178 

67-3 

+  3-IOII—  .Oo8l 

+  .010 

—  .0230      o 

.08            .27          .14 

3033 

Groomb  1  797m 

5-6 

26  41.031 

68.2 

+  3  -43°4-  -067  7 

+  .069 

—  .0005      o 

.ii        .66      .30 

3034 

Pi  94 

7-i 

26  51.400 

71.0 

+  3.0507  +  .0030 

+  .009 

—  .0017       o 

.10        .40      .19 

3035 

o1  Centauri 

5-o 

27    8.602 

87.2 

+  2.  7562  +  .0390 

+  .040 

+  .0003      o 

.16        .78      .24 

3036 

o2  Centauri 

5-3 

27  11.358 

86.3 

+  2.  7524+.  0390 

+  .040 

-.0030-  I 

.18        .84      .27 

3037 

Pi  95 

6.2 

27  18.624 

78.9 

+  2.  9676+.  OI52 

+  -013 

—  .0007      o 

.12            .50         .20 

3038 

Pi  96 

5-7 

27  18.954 

79-4 

+  2.9655+.  0152 

+  -013 

—  .0028      o 

.12            .56         .21 

3039 

Pi  98 

6.4 

27  42-523 

74-7 

+  3-0473  +  -0038 

+  .010 

—  .OOI  I         O 

.10           .51         .21 

3040 

1,4778 

5-7 

2?  55-927 

87.9 

+  2.  9098+.  0222 

+  .018 

—  .0068      o 

.15           .81         .23 

3041 

Br  1579 

5-3 

27  57-264 

79-8 

+  2.9590+.  0163 

+  .013 

-  -0035      o 

.14        .68      .24 

3042 

£  Hydra 

3-6 

28    4-953 

80.5 

+  2.  9436+.  Ol66 

+  .014 

-.0159-  I 

•07        -39      -13 

3043 

L  4785  m 

5-7 

28  44.789 

91.2 

+  2-9I25  +  .O224 

+  .018 

—  .0072—    I 

.12           .72         .l8 

3044 

Br  1582 

6.0 

29  14.871 

69.0 

+  3.0713-.  00l8 

+  .009 

-.0123       o 

.07       .28      .14 

3045 

Br  1583 

6.0 

29  30.232 

73-o 

+  3.1270—  .0094 

+  .on 

—  .0007       o 

.10       .30      .15 

3046 

Groomb  1800 

5-9 

29  34-492 

64.0 

+  3-3295-  -°499 

+  .044 

+  .0013      o 

.14      .62     .32 

3047 

Br  1584 

6-3 

29  37.866 

81.7 

+  2.9074+.oi7i 

+  .014 

-•0533-     2 

.12            .75         .24 

3048 

L  4794 

4.8 

30    1.093 

86.1 

+  2.8270+.0342 

+  .032 

-.0073-  I 

.20            .8l          .27 

3049 

L  4795 

5-6 

3°    9-520 

90.6 

+  2.8576  +  .O292 

+  .025 

—  .Ol8o—     2 

.18         1.22         .30 

3050 

Br  1581 

5-5 

ii  30  11.392 

69.9 

+  3.5683-.  1071 

+  -147 

+  .0228—    7 

.08           .30        .14 

3001  h  4432. 


i  2'.'4  294°. 
3026  Jacob. 


8M  8"  79° 


3023  S  1543.     8M  j'.'s  3 


very  slow. 

3032  2  1547. 


3024  Dunlop. 
8?6  16"  324°. 


8M  14"  168° 


CATALOGUE  OF  6188  STARS  FOR  1900 


123 


No. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3dt 

n'andioo  AH' 

Prob.  Errors. 
SEp.  ioo  n'  Sio 

Remarks. 

3001 

of           tt 

—  64  24  21.52 

82.3 

//                      // 

-19.739-.  058 

n 
+  .10 

—  .Oil          0 

.14      .65    .23 

4  GMuscas* 

3002 

-io  1838.97 

69.4 

-19.713-  .069 

+  .16 

+  .023       o 

.09      .34    .16 

3003 

—  42    7  12.08 

89.9 

-19-754-  -065 

+  .14 

—  .018       o 

.12         .73      .I9 

28  G  Centauri 

3004 

+  11  58  46.40 

64.8 

—  19.766—  .071 

+  •17 

—  .027       o 

.12         .52      .26 

3005 

-17    8    5-25 

72.9 

-19.744-  .067 

+  .16 

-.003      o 

.06         .30      .13 

h  840,  io"  5"  97° 

3006 

-71  42  25.63 

78.0 

-19.754-  .051 

+  .08 

—  .009      o 

.12         .6l      .23 

5  G  Muscae 

3007 

+  56  23  55.14 

68.6 

-19.705-.  077 

+  •23 

+  .042      o 

.08         .31      .15 

3008 

+  17    o  21.94 

61.1 

-19.771-.  070 

+  .18 

-  -023       o 

.08         .36      .20 

8  1  Leonis 

3009 

+  3  5i    6.98 

65-5 

—  19.804—  .069 

+  •17 

-  -054      o 

.12        .43      .23 

82  Leonis 

3010 

-  35  3°  50-45 

78.8 

-19.745-  .064 

+  .14 

+  .007      o 

.11         .51      .19 

29  G  Centauri 

3011 

+  4  24  38.53 

67.8 

—  19.802—  .068 

+  •17 

—  .049      o 

.10      .30    .16 

80  Leonis 

3012 

-73    5    2-24 

83.2 

-I9-7I5-  -048 

+  .07 

+  .047       o 

.14         .63      .22 

3013 

-63  25  14.58 

83-7 

-19.842-.  053 

+  .10 

-.079+  I 

•IS         -65      .23 

31  G  Centauri 

3014 

+  3  33  28.93 

67.0 

-19.594-  .064 

+  •17 

+.173+'! 

.06         .24      .12 

183  Leonis 

3015 

+  3  33    3-58 

7i-3 

—  19.603—  .064 

+  •17 

+.165+  I 

.10         .50      .22 

J2  1540.   29"  150° 

3016 

-6033  54.29 

80.8 

—  19.780—  .056 

+  .ii 

—  .007       o 

.13         .67      .24 

33  G  Centauri 

3017 

—  ii  48  26.04 

76.1 

—  19.761  —  .064 

+  .16 

+  .013       o 

•07      -34    -14 

3018 

-52  3636.55 

86.2 

-19.760-  .058 

+  •13 

+  .014      o 

.16         .75      .24 

32  G  Centauri 

3019 

-25  18  40.56 

85-2 

-19.755-.  062 

+  •15 

+  .027       o 

.13         .8l      .24 

280  G  Hydrae 

3020 

-   i    8  58.48 

7°-3 

—  19.786—  .064 

+  •17 

-  .003      o 

.13         .49      .23 

3021 

+  3  24  25.01 

69-5 

—  19.802—  .064 

+  •17 

—  .019       o 

.04         .19      .09 

3022 

+  62    19  21.  OO 

68.0 

-19.549-  -072 

+  .24 

+  .242       o 

.08         .39      .18 

3023 

+  39  53  U-37 

64-5 

—  19.787—  .066 

+  .20 

+  .009      o 

.08         .28      .15 

57  UrsaeMaj* 

3024 

-42    7  25.13 

78.6 

-19.797-.  058 

+  .14 

+  .OOI          O 

.13         -SI      .21 

34  G  Centauri  * 

3025 

+  15  57  55-87 

62.4 

—  19.865—  .062 

+  .18 

—  .058       o 

.12         .47      .25 

85  Leonis 

3026 

-23  5448.26 

92.0 

-19.794-  .058 

+  -I5 

+  .015      o 

.12         .93      .21 

33  G  Crateris* 

3027 

+81  40  40.08 

74.0 

—  19.772—  .088 

+  .50 

+  .039+  I 

.08         .37      .16 

3028 

+  43  43  19-72 

77-7 

-19.744-  .064 

+  .20 

+  .071       o 

.06         .29      .11 

58  Ursae  Maj 

3029 

—     2   27      6.40 

66.4 

-19.833-.  059 

+  •17 

—  .017      o 

.05         .22      .11 

87  Leonis  e 

3030 

+  185737.39 

69.1 

—  19.815—  .060 

+  .18 

+  .OO2         O 

.07         .30      .14 

86  Leonis 

3031 

+69  52  58.80 

72.0 

—  19.844—  .070 

+  .27 

—  .024       o 

.03         .14      .06 

3032 

+  1455  17.31 

64.2 

-20.030-  .05  7 

+  .18 

—  .196       o 

.O?         .27      .14 

88  Leonis* 

3033 

+  61  38  10.62 

65-3 

—  19.914—  .064 

+  •23 

-.079       o 

.11         .54      .26 

* 

3034 

-   5  54  59-28 

71.2 

-19.930-  .056 

+  .16 

—  .092       o 

.08         .35      .16 

3035 

-5853  24-58 

83-2 

-  19.859-  .049 

+  .12 

—  .018      o 

.13         .57      .20 

L4774* 

3036 

-58  57  49.81 

84-9 

—  19.860—  .049 

+  .12 

—  .018       o 

.l6         .69      .24 

L  4775 

3037 

—  28  42  54.60 

75-2 

-19.705-.  053 

+  •15 

+  .138       o 

.12         .48      .21 

1  284  G  Hydras 

3038 

-28  42  47.14 

74-9 

-  19-709-  -053 

+  •15 

+  .134      o 

.11         .47      .20 

JW.  H.  9"  210° 

3039 

—   7  16  31.62 

76.0 

-19.857-.  054 

+  .16 

—  .009      o 

.09         .47      .18 

3040 

-3953    8.39 

83.1 

—  19.802—  .051 

+  .14 

+  .049      o 

.13         .6l      .21 

39  G  Centauri 

3041 

-3032    6.60 

73-o 

—  19.850—  .052 

+  •15 

+  .001         0 

.12         .51      .22 

287  G  Hydrse 

3042 

-31  18  15.52 

77.0 

-19.904-  .05  1 

+  •15 

—  .051      o 

•07         -34      -13 

3043 

—  4O      2      6.09 

83.0 

—  19.846—  .049 

+  .14 

+  .015      o 

.11      .47    .17 

41  G  Centauri* 

3044 

+  3  36  55-86 

67.! 

-19.978-  .051 

+  .17 

—  .III         O 

.07         .29      .14 

89  Leonis 

3045 

+  17  2058.74 

67.8 

—  19.874—  .052 

+  .18 

—  .004      o 

.09         .28      .15 

90  Leonis  * 

3046 

+  55  20  16.03 

58.5 

—  19.874—  .056 

+  .21 

—  .004       o 

•i2      -55    -3i 

3047 

-32  18    5.92 

76.1 

—  19.058—  .046 

+  •15 

+.813+  I 

•13      -63    -25 

289  G  Hydrae 

3048 

-53  42  42.74 

79-2 

-19.879-  .045 

+  •13 

-.003       o 

.14     .58    .23 

42  G  Centauri  A 

3049 

-4835  18.43 

88.2 

-19.716-  .045 

+  .14 

+  .161       o 

.15      .99    .26 

43  G  Centauri 

3050 

+  69  52  45.57 

67.4 

—  20.008—  .060 

+  .26 

-.130      o 

.07      .26    .13 

2  Draconis 

3033  OS  235.     sl'9-71'2.     <  i";  binary,  66  yrs.  ±.                                3035  h  4445.     IOM  15"  126°. 

3043  Innes.     6*4-6*$  x'.'i  92°.                                                                  3045  2  1552.     1*3  3"  212°. 

124 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   IQOO 


no. 

Designation. 

Mag. 

R.  A.  1000 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  100  A  p 

Prob.  Errors. 
aEp.     loop,     aio 

M 

b    m         s 

6                     8 

s 

s 

'/            //          // 

3051 

L  4796 

5-7 

II  30  23.783 

85-3 

+  2.8789+.  0278 

+  .024 

—  .OIOO—     I 

.20         1.  12         .34 

3052 

Pi  in  m 

6.0 

31      2.289 

69.6 

+  3-  1654-  .0167 

+  .014 

+  .OO22         O 

.10            .48         .22 

3053 

Brisb  3663 

5-5 

31     4-659 

94-0 

+  2.  8940  +.0285 

+  •023 

+  .0026      o 

.13         I.O8        .22 

3054 

X  Centauri 

3-i 

31  10.023 

77-o 

+  2.  7447  +  .045  1 

+  .030 

—  .OO60—     I 

.IO           .45         .18 

3055 

6  Crateris 

4-9 

31  36.531 

77.6 

+  3.0413  +  .0050 

+  .OIO 

—  .0041       o 

.06           .27         .11 

3056 

Br  1587  ' 

6.0 

3i  37-293 

84.8 

+  2.9684+.  0182 

+  .015 

+  -0033       o 

.14           .8l         .25 

3057 

L  4810 

6.0 

31  42.246 

93-i 

+  2.7779+.0427 

+  .044 

-.0035-  I 

.21         I.l8        .29 

3058 

v  Leonis 

4-5 

31  49-?!6 

76.2 

+  3.  07  1  6  +.0004 

+  .OIO 

.0000       o 

.03            .18        .07 

3059 

Pi  118 

7.0 

3i  S9-o65 

89.2 

+  3.0005  +  .01  20 

+  .OII 

—  .0047       o 

.14        -88      .23 

3060 

L  4808 

6.8 

32    3-494 

84.6 

+  2.9677  +  .oi79 

+  .015 

—  .0014      o 

.15            .93         .28 

3061 

L  4816 

5-2 

32  22.933 

88.4 

+  2.7567  +  .0424 

+  .046 

—  .0290-   5 

.l8           .96        .27 

3062 

1,4815 

5-5 

32  43-119 

85-7 

+  2.8933  +  .0287 

+  .024 

-.0077-    i 

.20            .78         .27 

3063 

Br  1588 

5-7 

33    0-962 

75-7 

+  3.2115-  .0312 

+  .024 

-.0134+   i 

.10        .32      .14 

3064 

wChamaeleontis 

5-8 

33    8.215 

83-6 

+  2.  4497  +  .0680 

+-136 

—  .0250—  10 

.11            .93         .27 

3065 

L  4826 

6.0 

33  i6-549 

90.9 

+  2.  6901  +  .053  1 

+  .069 

—  .0148—   4 

.20         I.O5         .28 

3066 

Pi  126 

6-5 

33  17-489 

65-7 

+  3.0645  +  .001  3 

+  .OIO 

—  .0027       o 

.13            .52         .27 

3067 

w  Virginis 

5-7 

33  18.224 

75-o 

+  3-0953-  -0042 

+  .OIO 

—  .0008       o 

.IO           .40        .17 

3068 

Brisb  3689 

5-4 

33  26.958 

82.7 

+  2.7819+.  0444 

+  .048 

-.0086-     2 

.16           .82         .28 

3069 

Groomb  1812 

6.7 

33  29-141 

81.7 

+  3-1747-  -0321 

+  .026 

-.0555+  6 

.08           .50        .16 

3070 

i  Crateris 

5-8 

33  35-290 

63-5 

+  3.  0438  +.0069 

+  .OIO 

+  .0060       o 

.13            .44        .24 

3071 

L  4843 

5-i 

34  5i-46i 

85-5 

+  2.  7560+.  0507 

+  .061 

—  .0048—    i 

.20            .8l          .28 

3072 

Groomb  1816 

6-5 

34  59-289 

82.9 

+  3.3091-.  0556 

+  .054 

—  .0010      o 

.12            .52          .l8 

3073 

o  Hydrae 

4.9 

35  H-?" 

88.3 

+  2.972i  +  .oi94 

+  .015 

—  .0024       o 

•09            -56         .15 

3074 

Br  1592 

5-4 

35  35-125 

71.9 

+  3.1248—  .0119 

+  .OI2 

—  .0047       o 

.IO            .40         .l8 

3075 

Br  1593 

5-5 

35  47-I52 

72.2 

+  3.1695—  .0216 

+  .017 

—  .0007       o 

.08            .30         .14 

3076 

L  4856 

4-9 

36    9-925 

90.9 

+  2.8i7i  +  .O463 

+  .050 

+  .0007       o 

.20      i.oo      .27 

3077 

1,4845 

6.8 

36  10.369 

88.8 

+  2.97i8  +  .oi58 

+  .014 

—  .0248—    i 

.14           .94         .24 

3078 

Br  1596 

5-9 

36  22.046 

68.5 

+  3.1320-  .0190 

+  .016 

-.0273+     2 

.09           .33         .16 

3079 

L48S2 

5-8 

36  24.546 

87.6 

+  2.9348+.  0254 

+  .021 

—  .0115—    I 

.16         1.26         .33 

3080 

L4«57 

5-3 

36  44-294 

82.6 

+  2.9877  +  .oi8i 

+  .015 

—  .0002       o 

.12            .62         .21 

3081 

Br  1595 

5-6 

36  53-893 

80.9 

+  3.3861  -.085  1 

+  .108 

—  .0077+     2 

•05            -33         -II 

3082 

L4866 

6.8 

37  49-7io 

85.6 

+  2.6107  +  .0767 

+  .141 

+  .0093+  3 

.13            .78         .23 

3083 

Pi  146 

7.0 

38  19-663 

77-o 

+  3.1892—  .0285 

+  .O2  2 

+  .OO2  1         O 

.09           .50        .18 

3084 

1-4863 

6-3 

38  28.329 

88.6 

+  2.9791  +  .0214 

+  .017 

.0000       o 

.12             .64         .l8 

3085 

L4868 

5-2 

38  44.809 

83-5 

+  2.8387  +  .0480 

+  .052 

—  .0015       o 

.18            .78         .27 

3086 

Pi  148 

6-5 

38  48.63! 

67.6 

+  3.0634+.  0038 

+  .OIO 

+  .0043       o 

.11             .54         .26 

3087 

£  Crateris" 

5-o 

39  41.609 

79-6 

+  3.0368+.OIOI 

+  .OII 

+  .0024      o 

.06        .26      .10 

3088 

(  Virginis 

5-o 

40    7.800 

69.1 

+  3.  0945  -.0040 

+  .OIO 

+  .0042       o 

•09        .34      -16 

3089 

v  Virginis 

4-3 

40  43-l83 

62.3 

+  3.085  1  -.0030 

+  .OIO 

—  .0012       o 

.06        .26      .14 

3090 

X  Ursae  Maj 

3-9 

40  46-312 

75-4 

+  3.1846-  .0352 

+  .030 

—  .0136+     2 

.03      .15     .06 

3091 

L  4878 

5-5 

40  46.883 

84-3 

+  2-9535  +  -0284 

+  .023 

—  .0064—     I 

.18       .94     .30 

3092 

XMuscae 

3-7 

40  53.098 

85-6 

+  2.  8041  +.0566 

+  .071 

—  .0161-   3 

.13     .78    .23 

3093 

Groomb  1825 

5-6 

41  34-586 

75-9 

+3-2345-  -0484 

+.045 

+  .0019       o 

-13        -45       -20 

3094 

L  4885 

4.1 

41  40.468 

87.1 

+  2.8791  +  .0471 

+  .049 

—  .0036—    I 

.14        .78      >23 

3095 

L  4887 

5-i 

41  44.960 

85-9 

+  2.8506+.  0223 

+  .019 

-.1327-10 

.14       .81      .24 

3096 

L  4892 

5-5 

42  25.937 

91.9 

+  2.9097  +  .0422 

+  .040 

—  .0042—    I 

.20      1.16      .28 

3097 

Br  1602 

5-4 

42  46-674 

67.6 

+3.0845-  .0038 

+  .OIO 

-  .0034      o 

.11            .40         .20 

3098 

Br  1603 

4.6 

42  49-659 

66.4 

+3-0993-  -0106 

+  .OI2 

—  .OIIO         O 

.09      .32     .16 

3099 

/i  Muscae 

4-7 

43  25-687 

86.9 

+  2.8538  +  .059I 

+.073 

+  .OOIO         0 

.18       .94     .28 

3100 

Pi  161 

5-6 

ii  43  42.011 

85-2 

+  3.0249+.  0152 

+  •013. 

—  .0007       o 

.10            -75         .21 

3052  S  1555.     Triple.     6*6-1*0  i"±,  slow;  IIM  21"  147°. 
3071  Innes.     IIM  12"  340°;  IIM  15"  210°, 


3056  h  4455.     QM  4"  244°. 

3080  h  4465.     IOM  26"  344°;  8M  fols.  3V,  N  48" 


CATALOGUE   OF   6l88    STARS   FOR    IQOO 


125 


No. 

Decl.  igoo 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

|i'andiooA|i' 

Prob.  Errors. 
SEp.  ioo|i'  Sio 

Remarks. 

3051 

o        /           // 

-  46  49  10.45 

77-3 

//                        // 

-19.91  1  -.045 

+  .14 

// 
-.031       o 

it             n           ii 
.15         .69      .27 

44  G  Centauri  C1 

3052 

+  28  20      1.67 

65-9 

-19.  907-.  050 

+  .18 

—  .020      o 

.08        .41      .20 

* 

3053 

-47    5  13.84 

88.4 

—  19.942—  .045 

+  .14 

-  -055       o 

.10      .58    .16 

45  G  Centauri  C2 

3054 

-62  27  59.53 

78-3 

—  19.910—  .042 

+  .12 

—  .022       o 

.09         .41      .l6 

3055 

-   9  14  57.24 

74-3 

—  19.892—  .046 

+  .16 

+  .OOI         0 

.07         .32      .13 

3056 

-33    057-1° 

74-4 

-19.941  --045 

+  .15 

—  .048       o 

.14         .60      .26 

291  G  Hydrae* 

3057 

-60  29  57.03 

89.1, 

—  19.883—  .041 

+  .12 

+  .OII         0 

.17         .87      .25 

50  G  Centauri 

3058 

—   o  16  18.10 

72-5 

—  19.861—  .046 

+  •17 

+  .035       o 

.03         .16      .07 

3059 

-22   23  46.31 

88.4 

-19.865-.  045 

+  .16 

+  .032       o 

.11         .59      .17 

39  G  Crateris 

3060 

-32   25  56.93 

76.6 

-19.977-.  044 

+  •15 

-  .079       o 

.14         .64      .26 

292  G  Hydrae 

3061 

-  60  43  47.80 

87-3 

-19.905  -.039 

+  .12 

-.003+  I 

.l6         .80      .24 

526  Centauri 

3062 

-47  ii  39.48 

82.4 

—  19.889—  .042 

+  .14 

+  .017       o 

.15         .6l      .23 

53  G  Centauri  C3 

3063 

+  44  10  47.46 

68.8 

—  19.960—  .046 

+  .20 

-  -052       o 

.09         .27      .14 

59  Ursas  Maj 

3064 

-75  20  34.83 

83-4 

-I9-9J3-  -°33 

+  .09 

—  .024       o 

.10         .73      .22 

3065 

-67    359.00 

88.5 

-19.944-  .037 

+  .12 

-  -033       o 

-15      -94    -25 

1  1  G  Muscae 

3066 

-    i  52  S7-89 

65-5 

—  19.914-  .044 

+  -I7 

-.003       o 

.10      .38    .19 

S  1560.    IOM  5"  280° 

3067 

+  8  41  I5-85 

7i-3 

-19.917-.  044 

+  •17 

—  .006      o 

.09     .34  .16 

3068 

—  61  16  23.15 

80.  i 

-  19.908-  .038 

+  •13 

+  .004       o 

.13    -65  -23 

54  G  Centauri 

3069 

+  45  39  42.03 

76.7 

—  19.894—  .044 

+  .2O 

+  .019+  I 

.08     .36   .14 

2  1561.  8"?5  10"  259° 

3070 

-12  39    5-33 

66.9 

—  19.810—  .043 

+  .16 

+  .104      o 

.11         .42      .21 

3071 

-645036.78 

80.9 

-19.947—  .034 

+  .12 

—  .021       o 

.15         .6l      .23 

12  GMuscae* 

3072 

+  58  31  26.94 

79-o 

—  19.910—  .044 

+  .21 

+  .018       o 

.11         .42      .I? 

3073 

-34  ii  25.45 

84.6 

-19.929-  .038 

+  •15 

+  .OOI         0 

.IO         .49      .l6 

3074 

+  21  54  29.41 

71.8 

—  19.988—  .040 

+  .18 

-  -055       o 

.08         .35      .16 

92  Leonis 

3075 

+  3445  59-38 

68.9 

-  20.325-  .040 

+  .18 

-  -390      o 

.06         .28      .13 

61  UrsaeMaj 

3076 

-61  32    8.03 

80.9 

-  19.936-  .034 

+  -I3 

+  .OO2         0 

.15         .60      .23 

58  G  Centauri 

3077 

-2838  52.09 

85-5 

-  19.736-  .036 

+  •15 

+  .203       o 

.14         .93      .27 

294  G  Hydrae 

3078 

+  32  17  58.51 

65.0 

-19.929-  .038 

+  .18 

+  .OII         O 

.08         .33      .17 

62  UrsaeMaj 

3079 

-42  32  29.17 

89.1 

-I9-975-  -°36 

+  •15 

-  -034       o 

-15    1-47    -34 

59  G  Centauri 

3080 

-31  5638.71 

76.2 

—  2O.OIO—  .036 

+  .16 

—  .066      o 

.11      .47    .19 

295  G  Hydrae  * 

3081 

+  67  17  54.17 

74-4 

—  19.909—  .041 

+  -23 

+  .036      o 

.05      .25    .10 

3  Draconis 

3082 

—  74  40  20.50 

82.7 

—  19.956—  .028 

+  .10 

-.003       o 

.10      .57    .19 

136  Muscae  (ir2  Cham.) 

3083 

+42  1638.72 

74-2 

-19.978-  .035 

+  .19 

—  .021       o 

.08      .38    .16 

3084 

-3638  4.33 

87.! 

-19.991  -.032 

+  •15 

-  -033       o 

.13      .67    .20 

60  G  Centauri 

3085 

-61  56    3.88 

78.5 

-19.971-.  030 

+  -I3 

—  .010      o 

-14      -57    -23 

6  1  G  Centauri 

3086 

-   6    7  15.97 

69.6 

—  20.014—  -033 

+  -I7 

-•053    •  o 

.IO         .47      .22 

3087 

-17  47  41.21 

77-o 

—  2O.O07—  .031 

+  .16 

-  -039       o 

.06      .25    .10 

3088 

+  8  48  50.25 

60.8 

-1  9.999-  .03  1 

+  .17 

—  .027       o 

.07         .24      .14 

3089 

+   7    5  23.06 

65.2 

—  20.163—  .029 

+  •17 

-.187       o 

.05         .20      .IO 

3090 

+  48  20    1.82 

71.8 

—  19.960—  .030 

+  .19 

+  .016      o 

.03         .16      .07 

3091 

-45    8    5.69 

75-4 

—  19.976—  .028 

+  •15 

.000      o 

.14         .60      .25 

64  G  Centauri 

3092 

—  66  10  27.67 

82.3 

-19.949—  .025 

+  •13 

+  .028       o 

.IO         .56      .l8 

3093 

+  56  ii    4.07 

74-4 

—  2O.O22—  .029 

+  .20 

—  .040      o 

•ii      -35    -17 

3094 

-60  37  20.74 

84.1 

-T2O.OI2—  .025 

+  .14 

—  .029      o 

.11      .56    .18 

65  G  Centauri 

3095 

-3957  21.89 

86.4 

—  19.596—  .022 

+  •15 

+  •387+  3 

.13        .77      .22 

66  G  Centauri 

3096 

—  57    8  29.06 

88.8 

-19.985  -.0.24 

+  .14 

+  .003       o 

.16        .85      .24 

68  G  Centauri 

3097 

+  8  48    4.26 

66.5 

-  19.989-  .025 

+  -I7 

+  .OOI          0 

.09        .39     .19 

4  Virginia  A* 

3098 

+  20  46  28.41 

62.5 

—  2O.OIO—  .025 

+  •17 

—  .020      o 

.07         .29     .l6 

93  Leonis* 

3099 

-66  15  31.01 

77-7 

—  20.023—  .022 

+  .14 

—  .029       o 

-13         -58      -23 

3100 

-26  ii  37.70 

81.1 

—  2O.O22—  .023 

+  .16 

—  .026      o 

.09        .41      .15 

298  G  Hydrae 

3098  Z  App. 


74"  355°. 


126 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   1900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

|i  and  100  A  p. 

Prob.  Errors. 
aEp.     100  (i     aio 

M 

h    m          8 

s              s 

s 

s 

"             ft          it 

3101 

/8  Leonis 

2.2 

ii  43  S7-S83 

67.0 

+3.  0634-  .007  1 

+  .OII 

-.0342+    I 

.02         .11       .05 

3102 

Pi  164 

6.0 

44  30.010 

88.9 

+  3.I27I—  .0210 

+  .017 

—  .0096+    I 

.13         .52       .17 

3103 

L  4903 

4-5 

44  48.987 

87.9 

+  2.8949+.  0533 

+  .059 

—  .0020       o 

.20            .87         .27 

3104 

L  4907 

4-9 

45    9-363 

86.2 

+  2.8367  +  .0692 

+  .099 

—  .0022—    I 

.20            .82         .28 

3105 

/8  Virginis 

3-6 

45  29.181 

69.7 

+  3-I253—  -0002 

+  .OIO 

+  .0495       o 

.03            .13         .06 

3106 

L  4908 

5-8 

45  33-397 

84.8 

+  2.9i32  +  .o5i6 

+•055 

—  .0002       o 

.18        .86      .28 

3107 

L  4905 

6.9 

45  34-oi7 

83-9 

+  3.0240+.  0156 

+.013 

—  .0060       o 

.14      .87    .27 

3108 

Pi  167 

6.0 

45  55-479 

70.1 

+  3.  065  9  +.003  5 

+  .OIO 

+  .0004      o 

.08      .54    .23 

3109 

L  4910 

4-5 

46    8.622 

87-3 

+  2.9835  +  .0288 

+.023 

—  .0092—    I 

.15      .99     .27 

3110 

1,4913 

6.2 

46  38.071 

85-3 

+  3.0247  +  .01  79 

+  .014 

—  .0022       o 

.13            .72         .22 

3"! 

L  4920 

5-i 

46  57.666 

83-3 

+  2.9063  +  .0573 

+.067 

—  .0056—   I 

.18            .78         .28 

3"2 

Groomb  1830 

6.7 

47  12.990 

73-9 

+  3.4720-  .0300 

+  .031 

+  •3405-35 

3"3 

L  4922 

5-8 

47  13-389 

83-9 

+  2.9455  +  .0424 

+  .040 

—  .0146—     2 

.18            .75         .27 

3"4 

Pi  170 

7.2 

47  37.062 

84.4 

+  3-0957-  -0075 

+  .OII 

+  .0027      o 

.12            .44        .16 

3"5 

/?  Hydrae  m 

4-4 

47  5i-368 

75-i 

+  3-02I3+.0202 

+.016 

—  .0045       o 

.09           .39        .16 

3116 

L  4926 

6-5 

48  23.755 

82.3 

+  3.0164+.  O2IO 

+.016 

—  .OO94—     I 

.l6           .80        .28 

3"7 

y  Ursse  Maj 

2-3 

48  34.380 

69.2 

+  3-I756-.043o 

+  .040 

+  .OIO7—     I 

.02           .11         .05 

3"8 

Pi  179 

7-7 

48  45-201 

72.6 

+  3.0665  +  .0029 

+  .OIO 

—  .0022       o 

•14        -75      -3i 

3"9 

L4933 

5-7 

49  37-oiS 

76.4 

+3.047i  +  .oi5i 

+.013 

+  .0032       o 

.11        .48      .19 

3120 

Br  1609 

6.8 

49  53-691 

58.1 

+3.1362—  .0321 

+.028 

+  .0006      o 

.12           .39        .23 

3121 

Br  1611 

5-8 

49  55-345 

75-3 

+  3.0796-  .0035 

+  .OIO 

—  .0020      o 

.11            .30        .15 

3122 

Br  1610 

7-i 

49  59-403 

65-9 

+  3-I365--032i 

+  .027 

+  .0015       o 

.14           .51         .26 

3"3 

Br  1613 

5-7 

50  32-037 

68.2 

+  3.0901—  .0074 

+  .OII 

+  .0017       o 

.12            .57         .27 

3124 

Br  1614 

6-3 

So  34-921 

83.0 

+  3-0433  +  .oi68 

+  .014 

+  .0001       o 

.13            .6l          .21 

3"5 

Br  1612 

6.2 

50  45.082 

61.8 

+  3-I574--0475 

+  .046 

+  .0015      o 

.13            .52          .28 

3126 

17  Crateris 

5-3 

SOSS-"? 

77-2 

+  3-°533  +  .0101 

+  .OII 

-  .0033      o 

•09            -36         -15 

3"7 

L  49Si 

5-8 

52  38-446 

86.8 

+  2.9910+.  0544 

+.058 

—  .OOIO          0 

.l8            .94         .28 

3128 

Br  1616 

7.2 

53    6.368 

75-i 

+  3.0755-  -o006 

+  .OIO 

+  .0003       o 

.10        .34      .16 

3"9 

L4959 

5-7 

53  "-855 

86.8 

+  3.0126+.  0436 

+  .040 

—  .0015       o 

.15            .78         .24 

3130 

L  4963 

5-7 

53  44-879 

88.0 

+  2.9992  +  .0593 

+  .066 

+  .0009      o 

.18            .94         .28 

3i3i 

L  4961 

6.6 

53  48.242 

79-8 

+  3-0526+.OI55 

+  .013 

—  .0026      o 

.11             .58         .21 

3132 

Pi  207 

6.7 

53  56.394 

78.8 

+  3.0685  +  .0010 

+  .OIO 

—  .0045       o 

.08            .40         .15 

3i33 

L  4966 

6-3 

54    6.146 

84-3 

+  3.027I  +  .0375 

+  .031 

—  .0026       o 

.20         1.04         .33 

3134 

cChamaeleontism 

5-i 

5439-4H 

82.1 

+  2.9171  +  .  1243 

+.284 

-.0128-   6 

.09            .54         .17 

3135 

Br  1617 

5-5 

54  49.604 

66.1 

+  3-0735-  -o°o6 

+  .OIO 

—  .OOI  I          0 

.07             .28         .14 

3136 

Groomb  1845 

6-5 

55    5-627 

72.4 

+  3-2354-  -2172 

+•725 

—  .0263  +  17 

.07            .42         .17 

3137 

Pulkjj  1811 

5-8 

55  36.495 

84.2 

+  3  -°7  53  +  -0068 

+  .OIO 

+  .0074      o 

.07            .69         .19 

3138 

Br  1619 

5-4 

55  44-28o 

69-4 

+  3.oo23  +  .oii9 

+  .OI2 

—  .0014       o 

.14            .52          .26 

3139 

IT  Virginis 

4-7 

55  44-924 

73-9 

+  3.0752—  .0022 

+  .OIO 

—  .0003       o 

.04        .24      .10 

3140 

Pi  213 

6.7 

55  54-556 

68.3 

+  3.0708  +  .0023 

+  .OIO 

—  .OOIO         0 

.12            .48         .23 

3141 

PulkM  1813 

5-8 

56  32-487 

81.4 

+  3.0794—  .0206 

+.018 

—  .0079+  I 

.IO            .69         .22 

3142 

Br  1620 

6.8 

56  37-023 

73-5 

+  3.0778—  .0108 

+  •013 

—  .0028       o 

.08            .34         .15 

3U3 

Br  1621 

5-2 

57    2.240 

67.6 

+  3-0597-  -0265 

+  .023 

-.0291+  3 

.08            .30         .15 

3144 

L  4991 

6.0 

57  18.87- 

78.4 

+  2.839-  +.296- 

-.051-  -58 

.06        .66      .22 

3145 

Pi  218 

7.0 

57  24-738 

79-7 

+  3.0542-.  0264 

+  .023 

-•0325+  3 

•09        -57      -20 

3146 

0  Crucis 

4.4 

57  55-866 

80.8 

+  3.0277  +  .os8i 

+.063 

—  .0212—    4 

.12        .68      .23 

3U7 

Pi  221 

7-4 

58  28.470 

76-7 

+  3.  0664  +.0043 

+  .OIO 

—  .0052       o 

.15        .80      .30 

3148 

L  4992 

5-4 

58  28.741 

88.9 

+  3.0930+.  0289 

+  .021 

+  .0286+     2 

.15            .78         .22 

3H9 

Pi  222 

6.7 

58  38-199 

69.1 

+  3-0635-  .0014 

+  .010 

—  .0097       o 

.IO            .40         .20 

3150 

Br  1622* 

6.2 

ii  59    9.422 

74-2 

+  3-0773-  .oio3 

+  .OI2 

+  .0030       o 

•io        -33      -IS 

3iii      8M  i'.'s  170°.  3115  h  4478. 

3120  2  1579.    9"  4"  38°;  see  also  No.  3123. 


i'.'7  35°°.  slow  binary. 


CATALOGUE  OF  6l88  STARS  FOR  1 900 


127 


Ho. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

s«t 

P/  and  ioo  A^ 

Prob.  Errors. 
|SEp.  loop.'  Sio 

Remarks. 

3101 

0           /               // 

+  15   751.62 

65.2 

//          // 

—  20.121—  .022 

+  -I7 

n 

-  -123       o 

//         //        // 

.02         .11      .05 

3102 

+  35  29  J4-i6 

78.8 

—  2O.OI3—  -022 

+  .18 

—  .012       o 

.11         .40      .17 

3103 

-63  13  57-42 

81.9 

—  2O.OI7—  -020 

+  .14 

-  .014      o 

•IS         -63      -23 

69  G  Centauri  j 

3104 

—  69  40  10.65 

80.6 

—  20.006—  .Ol8 

+  -I3 

—    .001          0 

.15         .6l      .23 

17  GMuscae 

3105 

+    2  19  41.51 

68.0 

—  2O.286—  .O2I 

+  -I7 

-  .279       o 

.03         .12      .06 

3106 

-62      535.82 

78.8 

—  20.025—  -OI8 

+  .14 

—  .018       o 

•13      -59    -23 

70  G  Centauri 

3107 

-2643  19.19 

80.2 

-19.993-.  OI9 

+  .16 

+  .014       o 

.14      .89    .30 

299  G  Hydrae 

3108 

-     44638-38 

70.4 

—  2O.O2I—  .Oig 

+  -I7 

—  .012       o 

.07         .48      .20 

3109 

-4437    1.14 

81.1 

—  20.0IO—  .Ol8 

+  .16 

.000      o 

.12         .60      .21 

41  G  Centauri  B 

3110 

—  30  16  14.22 

82.4 

—  20.322—  .017 

+  .16 

-  -3°9      ° 

.13         .82      .26 

300  G  Hydrae 

3"i 

-  64  38  58.05 

80.9 

—  2O.O29—  •OI6 

+  .14 

—  .015       o 

.14         .63      .23 

1  8  GMuscae* 

3"2 

+  38  26    9.93 

72.8 

-25.817-.  045 

+  .25 

—5.801—26 

See  Appendix 

3"3 

-5625  56.78 

80.6 

-20.003  -.01  5 

+  -I5 

+  .013       o 

.14        .61      .23 

74  G  Centauri 

3"4 

+  15  5939.67 

70.2 

—  20.082—  .Ol6 

+  .17 

—  .064      o 

.10     .31    .16 

W.  H.  IOM  39"  14° 

3iiS 

-33  21    6.30 

68.8 

-20.025-.  015 

+  .16 

—  .006      o 

.09      .37    .18 

* 

3116 

-343034.24 

71.1 

-20.057-.  014 

+  .16 

-  .036       o 

.15      .63    .29 

302  G  Hydrae 

3"7 

+  5415    2-72 

63-9 

—  20.019—  .OI5 

+  .19 

+  .003       o 

.02         .11      .06 

3118 

-  3  13    9.66 

73-4 

—  20.082—  .013 

+  •17 

-  -059      o 

.12         .60      .25 

3"9 

-25    934-49 

76.4 

-19.959-  .012 

+  .16 

+  .067       o 

.11         .50      .20 

303  G  Hydrae 

3120 

+  47    i  58.90 

55-8 

—  20.034—  .OI2 

+  .18 

—  .007      o 

.09        .37      .22 

65  Ursae  Maj* 

3121 

+  8  59  59.55 

74-o 

—  20.024—  .on 

+  -I7 

+  .004      o 

.10      .32    .15 

6  Virginis  A3 

3122 

+  47    i  33-°9 

61.2 

—  20.047—  -OI1 

+  .18 

—  .019      o 

.12         .46      .25 

3«3 

+  16  12  11.49 

63-5 

—  20.037—  .010 

+  -I7 

—  .007       o 

.11         .51      .26 

95  Leonis  o 

3«4 

-27  55  11.14 

83-3 

—  20.062—  .010 

+  -I7 

-  .032       o 

.12         .50      .l8 

304  G  Hydrae 

3125 

+  57    918.89 

52.4 

—  20.027—  .010 

+  .18 

+  -003       o 

.12         .36      .24 

66  Ursae  Maj 

3126 

-163538.88 

74-7 

—  20.050—  .009 

+  -I7 

—  .019       o 

.08         .36      .15 

3"7 

-61  53  30.45 

84-5 

—  20.054—  .006 

+  -I5 

—  .018      o 

-IS         -75      -24 

i  G  Crucis 

3128 

+  42  19.88 

74-7 

—  20.046—  .005 

+  -I7 

—  .008      o 

.10      .32    .15 

3129 

-554538.45 

81.6 

—  20.064—  -005 

+  .16 

—  .026      o 

.11         .52      .18 

2  G  Crucis 

3130 

-634657-83 

87.1 

—  20.03  1  —  .004 

+  .16 

+  .008       o 

.15         .84      .24 

3  G  Crucis 

3i3i 

—  25  21    6.01 

78-5 

—  20.079—  •°°4 

+  -I7 

—  .040      o 

.11         .58      .21 

308  G  Hydras 

3132 

+  i    5  11.46 

75-6 

—  20.022—  .003 

+  •17 

+  .018      o 

.07         .32      .13 

3133 

-5i    823.57 

76.6 

-  20.055-  •°°3 

+  .16 

-  -015       o 

.14         .65      .26 

85  G  Centauri 

3134 

-77  3953-86 

78-3 

—  20.058—  .001 

+  .14 

—  .017       o 

.08         .42      .16 

h  4486.  5^6-^5  2"  186° 

3135 

+  4  12  43-37 

63-4 

—  20.060—  .002 

+  -I7 

—  .018       o 

.06         .28      .14 

7  Virginis  b 

3136 

+  81  2439-57 

68.8 

—  20.076—  .001 

+  .20 

-  -034      o 

.07         .36      .16 

3137 

-   952  34-15 

80.8 

—  20.522     .000 

+  -I7 

-  -479       o 

.O?         .67      .21 

3138 

-19    6    8.59 

67.2 

—  20.039     •00° 

+  •17 

+  .004       o 

.12         .40      .21 

31  Crateris 

3139 

+   7  10  18.80 

70.9 

—  20.076     .000 

+  •17 

-  -033       o 

.04         .19      .09 

3140 

-     I    12  33-74 

7i-3 

—  20.  1  20    .000 

+  •17 

—  .076      o 

.10      .43    .19 

3MI 

+  3636    3-37 

80.4 

—  2O.I42  +  .OO2 

+  •17 

-  .097       o 

.10      .55    .19 

3U2 

+  2239    4.78 

70.9 

—  2O.O64+.  OO2 

+  •17 

—  .019       o 

.06         .30      .13 

i  Comae  Ber 

3M3 

+  43  36    i-iS 

62.4 

—  19.  982  +.OO3 

+  •17 

+  -063       o 

.06         .26      .14 

67  Ursae  Maj 

3144 

-85    429.70 

78.2 

—  2O.O47  +.OO4 

—  .001       o 

.06         .55      .18 

12  G  Octantis* 

3145 

+  43  39  17-83 

75-3 

—  20.  566  +.OO4 

+  .17 

-  .520      o 

.08         .43      .I? 

3H6 

-62  45  22.36 

78-7 

—  2O.O54  +.OO4 

+  •17 

—  .008      o 

.09         .52      .19 

6  G  Crucis  01 

3M7 

-   4  55  21.02 

74.0 

—  20.O68  +.006 

+  •17 

—  .022      o 

.12         .56      .24 

3148 

-41  52  26.83 

83-7 

—  2O.I7I  +  .006 

+  -*7 

—  .125       o 

.12         .56      .19 

88  G  Centauri 

3H9 

+    67      O.2I 

66.8 

—  2O.I37  +  .OO6 

+  -i7 

—  .091       o 

.08         .34      .17 

3150 

+  22      057.85 

66.4 

—  2O.O59  +.OO7 

+  -i7 

—  .012      o 

.09         .27      .15 

2  Comae  Ber* 

3144  h  4490.    9M  25"  146°. 


3150  2  1596.     7*5  4"  238°. 


128 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR   IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

p.  and  100  A  n 

Prob.  Errors. 
aEp.     icon     aio 

M 

h    m         a 

S                     E 

s 

s 

//             //          // 

3151 

L  4999 

S-o 

ii  59  10.175 

83-7 

+  3-o622  +  .o59i 

+  .063 

—  .0008       o 

.16         .82       .27 

3152 

L  5000 

5-5 

59  29.268 

86.8 

+  3-0583  +  -°742 

+  .096 

—  .0067—     2 

.18         .87       .27 

3153 

K  Chamaeleontis 

5-2 

59  36.084 

87.2 

+  3.0409+.  1  188 

+  .241 

—  .0221—   9 

.15         .78       .23 

3154 

Groomb  1850 

6-5 

ii  5942-78- 

70.2 

+  3.038-  -.431- 

-.052-+85 

.07         .39       .17 

3ISS 

o  Virginis 

4-3 

12    o    6.933 

79-2 

+  3-0575—  -003° 

+  .OIO 

—  .0147       o 

.03         .16       .06 

3156 

Groomb  1852 

6.1 

o  10.326 

83.1 

+  3.ii2i-.i359 

+  .306 

+  .0443-20 

.05         .50       .14 

3157 

Groomb  1853 

6.4 

o  36.748 

81.4 

+  3.0586-  .0574 

+  .068 

—  .0066+    i 

.08         .45       .15 

3158 

Pi  230 

6.9 

o  52.546 

84.2 

-1-3.  0698  +.OO3  2 

+  .OIO 

—  .0028       o 

.07         .50       .15 

3159 

L  5021 

7.0 

i  28.938 

90.8 

+  3-0743+  -0247 

+  .018 

—  .0046      o 

.13         .69       .19 

3160 

17  Crucis 

4.2 

i  39.624 

73-o 

+  3.0923+.  0641 

+  .070 

.0000       o 

•!3        -5i      -23 

3161 

L  5028 

5-2 

2  33^60 

86.3 

+  3.  104I  +  .  1142 

+  .203 

—  .0232—   8 

.14        .88      .25 

3162 

L  5029 

4.8 

2   54.424 

81.4 

+  3.0894  +.038  1 

+  .030 

—  .0031       o 

.16        .68      .25 

3163 

L  5031 

5-7 

3    3-935 

86.1 

+  3.  0894  +.03  5  7 

+  .028 

—  .0029      o 

.16        .87      .27 

3i64 

L  5034 

7-i 

3  10.310 

85-3 

+  3.0794+.  0224 

+  .017 

-  .0055      o 

.12        .66      .20 

3i65 

8  Centauri 

2.7 

3  io-473 

73-8 

+  3.0904+.  0382 

+.030 

—  .0041       o 

.09        .36      .16 

3166 

a  Corvi 

4.2 

3  15-238 

72.6 

+  3.0867  +  .  0156 

+  •013 

+  .0058      o 

.07        .27      .12 

3167 

L  5036 

6.1 

3  43-333 

89.0 

+  3-o872  +  .03io 

+  •023 

-  .0059       o 

.15      1.05      .27 

3168 

L  S°37 

5-9 

3  44-192 

90.2 

+  3.0890+.  0280 

+  .O20 

—  .OCL2I         O 

.20         I.O5          .28 

3169 

Br  1625 

6-3 

4  33-854 

66.6 

+  3-O742  +  .ooo8 

+  .OIO 

+  .0030      o 

.06            .28         .14 

3170 

L  S°43 

6-3 

4  52-591 

83-9 

+  3.  0874  +.02  26 

+  .017 

—  .0042       o 

.14            .84         .26 

3171 

Br  1627 

5-9 

4  57-582 

66.9 

+  3.0580—  .0012 

+  .OIO 

—  .OI-II         O 

.11            .46         .23 

3172 

t  Corvi 

3-1 

4  58-849 

74-2 

+3.0794+.  0143 

+  .OI2 

-  .00.47       o 

.04            .24         .09 

3173 

Br  1628 

6-5 

5  25-859 

80.  i 

+  3.0617—  .0071 

+  .OII 

—  .0007       o 

.IO            .48         .17 

3174 

Br  1629 

5-6 

5  54-834 

78.7 

+  3.o822  +  .oi5o 

+  .OI2 

—  .0048       o 

.10           .48         .18 

3175 

Brisb  3951 

7.0 

6  14.986 

89.0 

+  3.ii99+.03i6 

+  .023 

+  .0127+  I 

.16           .98         .26 

3176 

p  Centauri 

4.2 

6  25.421 

80.9 

+  3-II52  +  .04I2 

+  .034 

—  .0047—    I 

.11            .54        .20 

3177 

Groomb  1858 

6.4 

630.421 

72.4 

+  2.  7836-.  1762 

+  .6S2 

—  .0094+  6 

.07            .36        .15 

3178 

Pi  6 

7.2 

633.316 

74-8 

+  3.0690—  .0002 

+  .OIO 

—  .0003      o 

.14           .64        .26 

3179 

Br  1631 

6.7 

6  45-879 

66.0 

+  3.0114—  .0429 

+  .045 

+  .OOI2          O 

•09        -33      -17 

3180 

Br  1630 

6.0 

6  46.779 

74-9 

+  3.0490-  .01  23 

+  .013 

-  .0037      o 

.11        .42      .18 

3181 

Br  1632 

5-9 

7    4-207 

64-5 

+3-0556-  .0091 

+  .OI2 

—  .0008       o 

.12            .48         .25 

3182 

Br  1634 

5-2 

7  3I-095 

71.0 

+  2.8662—  .I2IO 

+  .296 

+  .OO32—     2 

.03            .18         .08 

3183 

Br  1635 

6.0 

8  20.423 

63-5 

+  3.0569-  .0033 

+  .OIO 

—  .0061       o 

.11             .40         .22 

3184 

L  5069 

5-3 

8  48.942 

86.4 

+  3.n92  +  .0333 

+  .024 

—  .0048       o 

.16            .82          .26 

3185 

Brisb  3962 

6.9 

9  31.46- 

87.2 

+  4-486-  +  I.534- 

—  .072-  —  186 

.11             .90         .24 

3186 

Br  1636 

6-5 

9  46.060 

66.8 

+  2.  9929-  .0365 

+  .036 

—  .OOI  I         O 

.12            .57          .27 

3i87 

8  Crucis 

2.9 

9  49.980 

73-2 

+  3-i593  +  -°532 

+  .049 

-.0055-  I 

.IO            .40         ,l8 

3188 

Brisb  3977 

6.8 

9  55-239 

85.8 

+  3.ioi5  +  .oi9o 

+  .014 

-  .0025      o 

.12            .72          .21 

3189 

Groomb  1863 

6.1 

10  22.577 

75-i 

+  2.8921—  .0729 

+  .116 

—  .OO7O+     2 

.11            .63         .25 

3190 

8  Ursae  Maj 

3-3 

10  28.743 

71.0 

+  2.9899—  .0420 

+  .044 

+  .0137-     2 

.03            .16         .07 

3i9i 

y  Corvi 

2.6 

10  39.749 

75-o 

+  3.0801  +  .  0116 

+  .011 

—  .OII2         O 

.04           .22         .09 

3192 

Br  1639 

5-3 

10  55-554 

74-o 

+  3.0497-.  0056 

+  .OIO 

—  .0050       o 

.IO           .44        .19 

3193 

Br  1640 

6.1 

1  1    6.963 

81.6 

+  3-0175-  -0227 

+  .O2O 

+  .0019       o 

.06           .40        .13 

3194 

Br  1641 

5-2 

ii  17.011 

76.8 

+  3.0408—  .0108 

+  •013 

—  .0016      o 

.09           .45         .18 

3195 

Pi  29 

5-2 

ii  28.596 

69.4 

+  3.0242—  .0167 

+  .015 

—  .0036       o 

.14           .72         .32 

3196 

Br  1642 

7-2 

ii  52.158 

65-5 

+  2.6618—  .1305 

+  •399 

+  .OIH—   7 

.IO           .40        .20 

3197 

t  Muscae 

4.1 

12      9.911 

85-2 

+  3.2022  +  .0802 

+  .IO2 

-.0405-   9 

-14       -75      -23 

3198 

PulkjB  1842 

5-9 

12  28.370 

85-9 

+  3.0277-.  0138 

+  .014 

-  -0035       o 

.11        .57      .18 

3199 

/JChamaeleontis 

4-3 

12  28.434 

69.0 

+  3.4218+.  1865 

+  .460 

-.0163-   8 

.05       .32      .14 

3200 

£  Crucis 

4.2 

12    13      0.972 

84-3 

+  3-2i72  +  .o678 

+  .073 

—  .0069—    I 

.18        .84      .28 

3170  Jacob.     9M  a"5  20° 


3184  Rumk.     7M  3"  242°,  slow  binary. 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


I29 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i'and  looAji' 

Prob.  Errors. 
SEp.  100  H.'  8  10 

Remarks. 

3151 

o        /           // 

—  62  36  32.01 

78.7 

//            // 

—  20.045  +  .007 

// 

+  •17 

// 
+  .002       o 

//         //       // 

.13      .60    .23 

7  G  Crucis  6* 

3152 

-67  46  18.98 

80.3 

—  20.073  +  .008 

+  .17 

—  .026      o 

.14      .60    .23 

25  G  Muscae 

3153 

-75  S748.SI 

86.6 

—  20.004  +  .008 

+  •17 

+  -043      o 

.11      .60    .18 

3154 

+  86    8  28.70 

77.2 

—  19.  959+.  008 

+  .088       o 

.06      .38    .14 

3155 

+  9  17  18.01 

75-5 

—  20.009  +.009 

+  •17 

+  .038       o 

.03      .16    .06 

3156 

+  77  27  54.03 

79-7 

—  20.  136+.  009 

+  •17 

—  .089      o 

.06      .40    .14 

3157 

+  63  2930.40 

77-4 

—  2O.I22  +  .OIO 

+  .17 

-  .075       o 

.06      .34    .13 

3158 

-   2  34  27.80 

80.5 

—  2O.O7O  +  .OIO 

+  •17 

-  .023      o 

.08      .49    .17 

3159 

—  37  18  12.02 

89.2 

—  20.048+.  on 

+  •17 

—  .002       o 

.15         .77      .22 

91  G  Centauri 

3160 

-64    3  21.38 

76.2 

—  2O.O92  +  .OI  2 

+  .17 

—  .046      o 

.12         .50      .21 

3161 

-  74  48  39.00 

82.8 

-20.035  +  .014 

+  -I7 

+  .OII         O 

.11         .63      .20 

29  G  Muscae 

3162 

—  50    6  15.25 

79.8 

—  20.050+.  014 

+  •17 

-.005      o 

.13         .59      .22 

92  G  Centauri 

3i63 

-48    8    8.41 

82.4 

—  20.079+.  015 

+  •17 

-  -034      o 

.14         .65      .23 

93  G  Centauri  E 

3164 

-34    7    5-97 

76.1 

—  20.052  +  .OI5 

+  •17 

—  .007      o 

.12         .56      .22 

44  G  Hydrae 

3i65 

-50    955.66 

72.9 

—  20.062  +  .015 

+  .17 

—  .017      o 

.08         .33      .14 

3166 

—  24  10  16.04 

72.4 

—  20.094+.  015 

+  •17 

—  .049      o 

.08         .29      .13 

3i67 

-4346    5-64 

81.3 

—  20.III  +  .OI6 

+  •17 

—  .067       o 

.11         .57      .20 

95  G  Centauri 

3168 

—  40  40  29.04 

86.0 

—  20.061  +  .016 

+  •17 

—  .017       o 

•IS      -75    -23 

96  G  Centauri 

3169 

+    2  27  33.70 

69-3 

—  20.227  +  .  018 

+  •17 

—  .184      o 

.05         .27      .12 

10  Virginis 

3170 

-34    852.77 

70-3 

—  20.070+.  018 

+  •17 

—  .028       o 

.14         .6l      .28 

315  G  Hydrae  * 

3171 

+  6  21  46.65 

65.0 

—  20.025  +  .018 

+  .17 

+  .017      o 

.10         .43      .22 

ii  Virginis 

3172 

-22      348.97 

74-i 

—  20.035  +  .018 

+  •17 

+  .007      o 

.04         .24      .IO 

3173 

+  17   21   56.39 

74-9 

—  20.050+.  019 

+  •17 

—  .009      o 

.09         .36      .16 

3  Comae  Ber 

3174 

-23      243-4I 

78.4 

—  2O.O59  +.020 

+  •17 

—  .019       o 

.IO         .42      .17 

3  Corvi 

3I7S 

-434331-59 

84.9 

—  20.  104  +.02  1 

+  .18 

-  .065       o 

.12         .67      .21 

99  G  Centauri 

3176 

-51   48  41.98 

79-9 

—  2O.o6l  +  .O2I 

+  .18 

—  .022      o 

.IO         .49      .l8 

3177 

+  82  15  58.34 

76.7 

—  2O.04O+.  O20 

+  •13 

—  .001      o 

.10         .55      .21 

3178 

+   4  36  43.17 

70-3 

—  20.043  +  .02  1 

+  -i7 

—  .004       o 

.12         -SI      .24 

3179 

+  57  36  40.09 

66.4 

—  20.055  +  .02  1 

+  .!6 

—  .017       o 

.09         .26      .14 

68  Ursse  Maj 

3180 

+  26  25  38.46 

71.0 

—  2O.O76+.  O22 

+  .17 

-  .038       o 

.08         .35      .16 

4  Comae  Ber 

3181 

+  21      55548 

73-o 

—  2O.O68  +.O22 

+  -i7 

-.031       o 

.IO         .40      .l8 

5  Comae  Ber 

3182 

+  78  10  18.82 

76.8 

—  2O.OI8+.O22 

+  .14 

+  .018      o 

.03         .19      .07 

4  H  Draconis 

3183 

+  10  49    6.68 

59-o 

—  20.067  +  .025 

+  •17 

-  -033      o 

.10      .40    .23 

12  Virginis 

3184 

-45  10  "4.70 

77.8 

—  2O.O47  +  .O26 

+  .18 

—  .015      o 

•  13      -53    -22 

103  G  Centauri  D  * 

3185 

-87  51  33.64 

84.9 

-20.030+.  035 

.000      o 

.11         .73      .21 

13  G  Octantis 

3186 

+  53  59  27-72 

59-i 

—  20.050+.  027 

+  .16 

—  .021       o 

.10         .34      .20 

i  Canum  Ven 

3i87 

-58  n  33.57 

74.0 

—  2O.O47  +  .O28 

+  .18 

—  .019       o 

.08         .37      .16 

3188 

—  28  40  50.16 

84.6 

—  20.069  +.O28 

+  -I7 

—  .041       o 

.13         .94      .27 

3i8G  Hydrae 

3189 

+  7045  23.93 

68.0 

—  2O.O49  +.O28 

+  .14 

-  -023      o 

.08         .42      .20 

3190 

+  57  35  i7-6i 

66.7 

—  2O.O23  +.029 

+  •15 

+  .003       o 

.03         .14      .07 

3191 

-16  59  12.30 

69.7 

—  2O.OI4+  .029 

+  -I7 

+  .011      o 

.05         .22      .IO 

3192 

+  15  27  20.63 

72-4 

-20.05  7  +  .030 

+  .16 

-  -033      o 

.08         .31      .14 

6  Comae  Ber 

3193 

+  41  13    0.38 

74-4 

—  20.069  +.030 

+  .16 

—  .046      o 

.06         .27      .11 

2  Canum  Ven  * 

3194 

+  2430    4.46 

70.3 

—  20.04  1  +  .030 

+  .16 

—  .018       o 

.07         .32      .14 

7  Comae  Ber 

3195 

+  3337  13-37 

65.6 

-20.138  +  .  031 

+  .16 

—  .116       o 

.11         .6l      .29 

3196 

+  80  40  52.03 

53-8 

—  20.014  +.029 

+  .ii 

+  .006       o 

.11         .44      -27 

21625.  9Mi4"2i9° 

3197 

-67  2415.88 

82.2 

-20.063  +  .033 

+  .19 

—  .044      o 

.11         .57      .19 

3198 

+  29  29  30.19 

80.6 

-19.987  +  .033 

+  .16 

+  .030      o 

MO        .47     -17 

02245.  ioM8"279° 

3199 

-7845  25.02 

7i-5 

—  20.005  +  .036 

+  .23 

+  .OI2         0 

.05    .30  .13 

3200 

-63  26  49.94 

78.6 

-20.033  +  .035 

+  .20 

—  .019       o 

•13      -59    -23 

3193  2  1622.    8M  n"  259°- 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.  and  100  A  n 

Prob.  Errors. 
a  Ep.      looji     aio 

M 

h    m        s 

a               s 

s 

s 

//              //           // 

3201 

K  33 

6.8 

12  13      1.716 

74-9 

+  3.0761  +  .0044 

+  .OIO 

—  .0007       o 

.14          .64        .27 

3202 

Br  1643 

6.1 

13  32-658 

65-7 

+  3.0743  +  .0028 

+  .009 

+  .0016       o 

.08          .34        .17 

3203 

L  5092 

5-o 

13  39-742 

85.0 

+  3.  1  749  +.0473 

+  .040 

-  .0094—    i 

.18          .78        .27 

3204 

Br  1656 

6-5 

13  55-74" 

59-8 

+  1.  794  --.092  • 

+  .266  —  491 

.08          .27        .16 

3205 

Br  1644 

7.2 

14  II-372 

73-3 

+  3-0853  +  .007  1 

+  .OIO 

+  .0008      o 

.09          .46       .20 

3206 

Br  1645 

6.4 

14  16.127 

64-5 

+  3.0338-  .0100 

+  .OI2 

—  .0022       o 

.14          .51        .27 

3207 

Br  1650 

5-5 

14  20.913 

73-2 

+  2-737°-  -0887 

+  .l84 

-  .0069+  3 

.07          .32        .14 

3208 

Br  1672 

6-5 

1423.17- 

73-8 

+0.248-  +.818- 

-.074-  +  209 

.04          .18        .08 

3209 

Br  1646 

6.7 

14  29.084 

72-4 

+  3.0110—  .0130 

+  .014 

-  .0151+    i 

.09          .39        .17 

3210 

rj  Virginis 

4.0 

I447-372 

73-o 

+  3.0684+.  0028 

+  .009 

—  .0041       o 

.03          .16       .07 

3211 

Br  1651 

5-7 

14  53-273 

64.1 

+  2.9708—  .0299 

+  .029 

+  .0002       o 

.14          .44       .24 

3212 

Groomb  1867 

7.0 

15  14-797 

63-9 

+  2.9970—  .0197 

+  .OI8 

-  .0048       o 

.16          .64       .34 

3213 

Br  1652 

5-i 

15  16.236 

70-9 

+  3.  0465  +  .0008 

+  .OIO 

—  .0198       o 

.07          .28        .13 

3214 

Pulkjj  1852 

5-9 

15  18.089 

89-3 

+  3.0214—  .0120 

+  •013 

—  .0052      o 

.13          .58        .18 

3215 

£Corvi 

5-5 

15  22.871 

82.3 

+  3.ioi9+.oi48 

+  .OI2 

—  .0060       o 

.14            .57         .21 

3216 

Br  1654 

4-9 

15  39.906 

65-5 

+  3.0340-  .0069 

+  .OII 

—  .0081       o 

.10        .36      .19 

3217 

Pi  54 

5-5 

15  45.862 

82.8 

+  3-0935  +  -0097 

+  .OIO 

—    .OOOI          0 

.08           .51         .16 

3218 

t  Crucis 

3-4 

IS  57-647 

77-3 

+3.  2081  +  .0585 

+  .056 

-  .0243-   4 

.13            .48         .20 

3219 

Br  1655 

5-9 

16    0.241 

64.8 

+  2.9262—  .0410 

+  .044 

+  .0055-    i 

.12            .48         .25 

3220 

L  5112 

5-3 

16  33-766 

84.4 

+3.2984+.  0831 

+  .IOO 

—  .0009      o 

.16           .87         .28 

3221 

LS"3 

6.0 

16  36.736 

90.1 

+  3.3087  +  .0868 

+  .108 

—  .0002      o 

.20         I.O5         .28 

3222 

L  5120 

5-7 

17  24.232 

80.8 

+  3-2228  +  .0534 

+  •047 

—  .0064—    I 

.l8         I.O2          .35 

3223 

Br  1657 

6.7 

17  26.931 

63-9 

+  3.  0505  -.0002 

+  .OIO 

—  .0114      o 

.09            .32          .17 

3224 

Br  1658 

4-9 

17  28.773 

73-i 

+  3.0212—  .0114 

+  •013 

—  .0006      o 

•°7        -34      -15 

3225 

1,5107 

6.7 

17  37.00- 

81.4 

+4.388-  +.720- 

—  .016-  —  20 

.14        .78      .26 

3226 

Br  1659 

6.0 

18    8.855 

77-o 

+  3.n85  +  .oi67 

+  •013 

—  .0015      o 

.11             .50         .20 

3227 

L  5129 

5-5 

18  19.821 

85-4 

+  3.  1438  +  .0246 

+  .017 

—  .0029      o 

.14        .88      .26 

3228 

L5i3i 

7.0 

18  33.265 

82.9 

+  3-i343  +  -02o6 

+  .014 

+    .OOOI         O 

.13        .66      .22 

3229 

Br  1660 

6.2 

18  51.883 

63.0 

+  2.9619—  .0229 

+  .02  1 

—  .0076+  I 

.13      .42     .24 

3230 

Br  1662 

5-2 

19  10.003 

73-7 

+  2.9298—  .0317 

+  •031 

+    .OOIO          0 

.10        .39      .17 

3231 

Br  1661 

5-3 

19  17.562 

63.2 

+  3.0142—  .0114 

+  .013 

—  .0017       o 

.11      .44     .23 

3232 

L  5142  m 

6.0 

20     5.491 

89-4 

+  3-I499+.0246 

+  .017 

-  -0033       o 

.11       .78      .19 

3233 

Pi  75 

6-3 

2O  13.289 

81.6 

+  3.0226—  .0101 

+  •013 

+  .0039      o 

.11        .46     .17 

3234 

Br  1663 

6.2 

2O  16.423 

68.3 

+  2.8864—  .0377 

+  .040 

—  .0018       o 

.11            .44         .21 

3235 

Br  1664 

5-3 

20  55.410 

82.4 

+  2.9650—  .0198 

+  .019 

—  .0066      o 

.05            .28         .09 

3236 

L5»47 

5-2 

20  57.193 

75-7 

+  3-3022  +  .o688 

+  .070 

—  .0052—    I 

.16           .58         .26 

3237 

a1  Crucis 

1.4 

21      2.O2I 

68.8 

+  3.  3030  +.0688 

+  .070 

—  .0051—    I 

.06           .32         .15 

3238 

a2  Crucis 

1.6 

21      2.673 

66.6 

+  3.  3016+.  0687 

+  .070 

—  .0066—    I 

.09           .39         .19 

3239 

L  515° 

5-i 

21      7.478 

82.8 

+  3.  2164+.  0430 

+•033 

-  .0073-  I 

.20           .98         .33 

3240 

Br  1665 

5-2 

21   24.056 

57-2 

+  3.0049—  .0119 

+  .014 

—  .0017       o 

.12            .48         .28 

3241 

L  5154 

5-8 

21  35-405 

85.6 

+  3.i5o8  +  .O228 

+  .015 

—  .0009      o 

.12            .62         .19 

3242 

•y  Comae  Ber 

4.6 

21  57-296 

73-4 

+  2.9954—  .0124 

+  .014 

—  .0066      o 

.06           .30        .12 

3243 

L5I57 

5-5 

21  58.065 

94-6 

+  3-2784+-0579 

+  .052 

—  .0022       o 

.21          I.4I          .30 

3244 

Br  1667 

5-i 

21  59-365 

59-6 

+  3.0061—  .0116 

+  •013 

+    .OOOI         0 

.12            .45         .26 

3245 

<r  Centauri 

4.1 

22  37.817 

86.1 

+  3.2238  +  .04I5 

+  •031 

—  .0038      o 

.11            .58         .18 

3246 

Pi  87 

6.7 

22  37.856 

77-2 

+  3.io83  +  .oii9 

+  .OIO 

—  .0020       o 

.13        .68      .26 

3247 

Pi  91 

6-3 

22  43-683 

83-7 

+  3.0763  +  .0053 

+  .OIO 

—  .0054      o 

.06        .48      .14 

3248 

Br  1670 

6.0 

22  49.780 

61.6 

+  2.8705-  .0354 

+  •037 

—  .0028       o 

.12            .44        .24 

3249 

L  5164 

5-8 

23    3-343 

83-7 

+  3.  1  769  +  .0283 

+  .019 

—  .0022      o 

.IO           .48         .16 

3250 

Br  1671 

6.9 

12  23  44-863 

82.2 

+3.0015-.  0109 

+  •013 

—  .0021      o 

.12            .40         .l6 

3203  Innes.     I2M  36"  87°. 
3220  Innes.     IOM  32"  132°. 


3216  Hough.     i3M  9"  42°. 
3223  2  1636.     9M  20"  336°. 


CATALOGUE   OF   6188    STARS   FOR    IQOO 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'andiooAn' 

Prob.  Errors. 
SEp.  100  n'  Sio 

Remarks. 

3201 

o        /           // 

-   3  23  38-08 

66.8 

//           // 

-19.  999+.  034 

// 

+  •17 

it 

+  .015       o 

tr              ft            tr 

.IO         .40      .20 

3  1627.  7"  20"  196° 

3202 

-  o  13  52.68 

57-8 

-20.030+.  035 

+  •17 

—  .018      o 

.07         .28      .l6 

13  Virginis 

3203 

-54  35  14-45 

79-2 

—  20.056  +  .036 

+  .18 

-  .045     ° 

.14         .58      .23 

108  G  Centauri  * 

3204 

+  8659  29.91 

58.0 

—  20.016  +  .  027 

—  .OO6+    2 

.08         .34      .20 

3205 

-   8  21  31.54 

73-2 

—  20.  041  +  .036 

+  -I7 

~  -°33         ° 

.08         .37      .16 

14  Virginis 

3206 

+  23  35  24.45 

64.6 

—  20.03  1  +  .036 

+  .16 

—  .023      o 

.10      .47    .24 

8  Comas  Ber 

3207 

+  75  42  56-46 

69-5 

—  20.004+  -°33 

+  .12 

+  .004      o 

.06        .24     .12 

5  H  Draconis 

3208 

+  88  15  15.20 

78.4 

—  I9-949+.OIO 

+.058-  I 

.04        .18      .07 

6  B  Ursas  Min 

3209 

+  28  42  55.84 

67.2 

—  20.  1  50  +.036 

+  .16 

—  .142       o 

.08        .33      .16 

9  Comae  Ber 

3210 

—   06  40.02 

73-4 

-20.030+  .037 

+  •17 

—  .025      o 

.02        .14     .06 

32" 

+  49  32  20.56 

62.4 

—  20.OI2  +  .O37 

+  .16 

—  .007       o 

.12        .36     .21 

3  Canum  Ven 

3212 

+  38  27  27.31 

58.0 

—  20.002  +  .038 

+  .16 

.000      o 

.11         .42      .24 

2  1632.  IOM  10"  192° 

3213 

+  3  52    9.60 

62.8 

—  20.080  +.038 

+  .16 

—  .078      o 

.06        .23      .12 

1  6  Virginis  c 

3214 

+  27  1039.38 

85.6 

—  20.1  2  I  +  .038 

+  .16 

—  .119      o 

.12         .51      .I? 

3215 

-2i  3936.30 

74-3 

—  20.041  +  .039 

+  •17 

-.039      o 

.12         .42      .19 

ft  1245.   i4M5"46° 

3216 

+  18  20  43.22 

63.1 

—  19.  922  +  .039 

+  .16 

+  .078      o 

.08         .29      .l6 

ii  Comas  Ber  * 

3217 

-13    039.98 

79-3 

—  19.997  +  .040 

+  •17 

+  .002          0 

.09         .49      .17 

3218 

-595055.10 

79.1 

—  19.  920+.  041 

+  .19 

+  .078       o 

.10      .45    .17 

3219 

+  58  25  15.79 

56.8 

—  20.069  +.038 

+  .14 

—  .071       o 

.10        .34     .21 

70  Ursas  Maj 

3220 

-6658    1.63 

81.1 

—  20.022  +  .043 

+  .20 

—  .028       o 

.13        .64     .23 

38  G  Muses  {2* 

3221 

-6745    3-88 

82.1 

—  20.061  +  .043 

+  .20 

—  .067       o 

.15        .64     .23 

39  GMuscas  £  * 

3222 

-57    7  16.21 

75-2 

—  20.O2O+.O44 

+  .I9 

—  -031       o 

.13        .67      .27 

24  G  Crucis 

3223 

-  5  51  41.44 

59-o 

—  20.049  +.042 

+  .16 

—  .060      o 

.08        .28      .16 

17  Virginis  * 

3224 

+  2624    3.75 

71.2 

—  20.003  +  .042 

+  .16 

—  .014      o 

.06        .26     .12 

12  Comas  Ber 

3225 

-85  354S-32 

81.9 

-19.994+.  057 

—  .006      o 

.12         .71      .23 

14  G  Octantis 

3226 

—  24  17    8.05 

76.9 

—  20.002  +  .044 

+  -I7 

—  .018       o 

.11         .50      .20 

6  Corvi 

3227 

-3451  29.14 

73-o 

—  20.008  +  .045 

+  .18 

—  .025       o 

.14         .65      .28 

113  G  Centauri  #* 

3228 

-2946  50.15 

84-9 

—  19.  984  +.046 

+  .18 

-.003       o 

.15         .94      .28 

320  G  Hydras  * 

3229 

+  43    547-77 

52.8 

-19.974+.  044 

+  •15 

+  .005       o 

.12         .38      .25 

4  Canum  Ven 

3230 

+  52    6  58.28 

69.1 

—  19.970+.  044 

+  .14 

+  .007       o 

.09         .28      .14 

5  Canum  Ven 

3231 

+  26  39  10.92 

58-4 

—  19.999+.  046 

+  .16 

-.023      o 

.10      .41    .23 

13  Comas  Ber 

3232 

-3437  55-59 

80.8 

-I9-983  +  .049 

+  .18 

—  .013      o 

.12         .53      .20 

118  G  Centauri  a?* 

3233 

+  24  28  52.54 

76.7 

—  2O.OI7  +  .O47 

+  .16 

—  .048      o 

.08         .40      .l6 

3234 

+  57  I955-76 

63.2 

—  19.  992  +  .046 

+  .14 

—  .024      o 

.11         .38     .21 

71  Ursas  Maj 

3235 

+  39  34  24.14 

74-8 

—  20.002  +  .048 

+  •15 

-.039      o 

.06        .29     .12 

6  Canum  Ven 

3236 

-62  34    4.69 

81.2 

—  20.003  +  .05  2 

+  .21 

—  .040      o 

.14        .6l      .22 

25  G  Crucis 

3237 
3238 

-62  32  41.63 
-62  32  43.76 

73-6 
68.3 

-19.993  +  .052 
—  19.978+.  052 

+  .21 
+  .21 

-.031      o 
—  .016      o 

.06        .37      .15 
.08        .39     .18 

|  See  also  L  5147  prec  * 

3239 

-505347.67 

76-4 

-I9.999  +  .05I 

+  .19 

-.037       o 

.14        .65      .26 

119  G  Centauri  * 

3240 

+  27  49  19.69 

58.2 

—  19.978  +  .049 

+  .16 

—  .018       o 

.09         .39      .22 

14  Comas  Ber 

3241 

-32  16  32.04 

82.4 

-19.997  +  .052 

+  .18 

-  -039      o 

.11         .52      .l8 

323  G  Hydras 

3242 

+  28  49  27.29 

72.1 

—  20.042  +  .050 

+  .16 

-  .087       o 

.05      .24    .10 

15  Comas  Ber 

3243 

-58  26  17.91 

9!-5 

-19.  957  +  .054 

+  .20 

—  .002      o 

.17    1.08    .26 

29  G  Crucis 

3244 

+  27  22  46.24 

57-6 

—  19.968+.  050 

+  .16 

-.013      o 

.IO         .42      .24 

16  Comas  Ber 

3245 

-49  40  36-53 

83.1 

-i9.977  +  .o55 

+  .19 

—  .028       o 

.09         .44      .15 

3246 

—  164  42.81 

77-3 

-19.948  +  .053 

+  -I7 

+  .OOI         0 

.12        .54     .21 

3247 

-   4    3  43-28 

80.7 

-19.957  +  .053 

+  •17 

—  .009      o 

.06        .44     .14 

3248 

+  561558-76 

52-3 

-19.967  +  .050 

+  .14 

—  .020      o 

.11         .32      .22 

73  Ursae  Maj 

3249 

-38  29  14.64 

75-4 

-19.961  +  .055 

+  .18 

—  .016      o 

.11         .42      .18 

122  G  Centauri  u 

3250 

+  26  27  10.41 

78.6 

-I9-973  +  .054 

+  .16 

-.033       o 

.10      .42    .17 

3228  See.     i4M  18"  98°. 
3237-3238    i?4-i"6  S"  "6°. 


3232  See.  61"5 
3239     13"  24 


5™7  o'/2  41° 
286°. 


132 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  100  A  p. 

Prob.  Errors. 
aEp.     ioo(i     aio 

M 

h    m         s 

S                     I 

s 

„ 

/'                       H                 H 

3251 

Br  1673 

5-4 

12  23  SS-I24 

58-6 

+  3.0016—  .0109 

+  •013 

—  .0014       o 

.12            .48         .28 

3252 

Pi  98 

7-5 

24     1.840 

76.2 

+  3-o737  +  -o°42 

+  .009 

—  .0032      o 

.16           .72         .29 

3253 

Brisb  4073 

5-9 

2423.172 

89.2 

+  3.  2784+.  0530 

+  .044 

—  .0042—    I 

.18         1  .08         .29 

3254 

Br  1674 

5-7 

24  26.936 

80.2 

+  3.0052—  .0098 

+•013 

—  .0018       o 

.09           .36         .14 

3255 

L5I73 

6.0 

24  36-497 

85-9 

+3.  1988+.  0313 

+  .02  1 

+  .OOI2         O 

.16           .92         .28 

3256 

8  Corvi 

3-o 

244I-351 

74-9 

+  3-0990+.OH9 

+  .010 

—  .0144      o 

.03           .20        .08 

3257 

Br  1676 

5-9 

24  41.852 

85-9 

+  3.0186—  .0080 

+  .OI2 

+  .0027      o 

.05        .36      .10 

3258 

Pi  104 

6.7 

24  55-432 

74.2 

+  3.0885  +  .0101 

+  .OIO 

—  .0169      o 

.14           .54        .24 

3259 

Pi  105 

6.1 

25    3-3" 

80.0 

+  3.i326+.oi64 

+  .OI2 

—  .0021       o 

.11           .60        .21 

3260 

Br  1678 

5-6 

25  17.200 

83-2 

+  2.8192—  .0378 

+  .042 

-.0087+  I 

.06          .34        .11 

3261 

Br  1677 

6-5 

25  19.189 

77-9 

+  2.8534-  .0293 

+  .029 

—  .0298+   4 

.09           .44        .16 

3262 

Dpt  1428  m 

7-7 

25  28.932 

76.9 

+  3.0489—  .0020 

+  .OIO 

+  .0034      o 

.12           .39        .18 

3263 

y  Crucis 

'•3 

25  37.020 

72.6 

+3-3003  +-0549 

+  .046 

+  .0023+  I 

.10        .39      .17 

3264 

Pi  108 

7-3 

25  42.282 

83.0 

+3.  07  63  +.005  1 

+  .009 

—  .0052      o 

.13           .70        .23 

3265 

Br  1680 

5-3 

25  43-846 

72.4 

+  2.6549-  .0550 

+  .086 

--0115+  3 

.08           .40        .17 

3266 

Br  1679 

5-6 

26    0.993 

73-i 

+  3.0006—  .0099 

+  .OI2 

—  .0008      o 

.IO           .44        .19 

3267 

Groomb  1903 

6.4 

26    4.836 

77-3 

+  2.8681-.  0315 

+  •033 

+  .0018-  I 

.IO           .54        .20 

3268 

LSi85 

5-5 

26    5.007 

88.4 

+  3.  3  1  98  +  .0603 

+  .054 

—  .0039      o 

.20           .92         .28 

3269 

y  Muscae 

4.0 

26  29.490 

81.4 

+  3.5260+.  1188 

+  •174 

-.0092-   3 

.12           .62         .21 

3270 

Pi  in 

6.6 

26  30.169 

77-8 

+  3.0819+.  0057 

+  .OIO 

—  .0026      o 

.09           .50        .l8 

3271 

L  5192 

7.6 

26  53.638 

86.1 

+  3-I505  +  -OI92 

+  •013 

—  .0016      o 

.15      1.08      .30 

3272 

TJ  Corvi 

4-4 

26  54.896 

66.4 

+  3.o8s7  +  .oii8 

+  .OIO 

-.0305-    i 

.08           .32         .16 

3273 

Pulkjj  1884 

5-9 

27  25.461 

90.1 

+  3.  1006  +.0105 

+  .OIO 

—  .0095       o 

.12           .62         .17 

3274 

Br  1682 

6.7 

27  59-I91 

79-3 

+  3.0369-  .0021 

+  .010 

-  .0043      o 

.11            .36        .l6 

3275 

Pulkw  1886 

5-9 

28  23.028 

90-3 

+  3.io65  +  .oioo 

+  .OIO 

—  .0018      o 

.13           .63         .18 

3276 

Br  1684 

6.4 

28  35.201 

80.2 

+  2.9938-  .0095 

+  .013 

—  .0016      o 

.11            .38        .16 

3277 

Br  1683 

5-6 

28  37.022 

68.8 

+  3.0927  +  .0082 

+  .OIO 

-  .0057       o 

.07           .36         .16 

3278 

Pi   122 

5-7 

28  43-4I3 

82.6 

+  2.9616—  .0149 

+  .015 

+  .OOII         O 

.11            .48         .17 

3279 

ft  Canum  Ven 

4.4 

28  59-705 

79-4 

+  2.8581—  .0194 

+  .02  1 

-.0629+  5 

.04           .21         .08 

3280 

ft  Corvi 

2.8 

29    7.987 

70.2 

+  3-i437  +  .oi65 

+  .OI2 

.0000      o 

.03           .18         .08 

3281 

K  Draconis 

3-8 

29  13.000 

71-5 

+  2.5849-  .0529 

+  .085 

-.0119+  3 

.03           .18         .08 

3282 

LS207 

6.0 

29  17.601 

87-3 

+  3.2299+.0352 

+  .024 

—  .0076      o 

.20           .84        .27 

3283 

Pi  130 

4.9 

29  52.122 

79-5 

+  2.9928—  .0085 

+  .OI2 

—  .0052      o 

.07           .39        .14 

3284 

Br  1687 

6.8 

3°    5-397 

77-6 

+  3.0115—  .0062 

+  .OII 

—  .0008      o 

.13           .69        .26 

3285 

Br  1688 

5-3 

30    6.857 

86.4 

+  3.0127—  .0062 

+  .OII 

+  .0003      o 

.05           .34         .09 

3286 

L  5211 

5-4 

30  22.572 

86.6 

+3.2i29+.03ii 

+  .O2O 

—  .OIOI—     I 

.18         1.05         .30 

3287 

Br  1691 

5-3 

30  30.212 

74-2 

+  2.  5629-  .0523 

+.085 

—  .OO66  +     2 

.11           .39         .18 

3288 

Groomb  1909 

7-4 

31    7.077 

74-8 

+  1.9197-.  0415 

+  .150 

-.0355+21 

.08           .44        .17 

3289 

a  Muscae 

2.7 

31  i3-052 

80.8 

+  3.5285  +  .  1013 

+  .127 

—  .0065—     2 

.12            .57         .21 

3290 

Br  1690 

6.1 

31  38-273 

77.1 

+  3.  0873  +  .0064 

+  .009 

—  .0020      o 

.06           .32         .12 

3291 

Br  1692 

6.0 

31  57-484 

69.8 

+  3.  0104-  .0054 

+  .011 

—  .0029      o 

.12            .48        .23 

3292 

r  Centauri 

4.0 

32  13-903 

854 

+  3.  2606+.  0404 

+  .029 

—  .0197—     2 

.10        .56      .17 

3293 

Pi  140 

5-7 

32  24.024 

83.6 

+  3.i7i9+.oi94 

+  •013 

+  -0053      ° 

.08           .57         .17 

3294 

Pi  142 

6.0 

33  16.344 

72.2 

+  3-0585  +  •0025 

+  .009 

-.0057       o 

.IO          .50        .21 

3295 

Pi  143 

7-i 

33  34.778 

73-3 

+  3.o820+.oo57 

+  .009 

-  .0034      o 

.11            .48        .21 

3296 

L  5229 

6.2 

33  44.100 

83-7 

+  3.i8i8  +  .O2i9 

+  .014 

-.0031       o 

.12            .66        .21 

3297 

Br  1.696 

6-5 

33  57-609 

74-2 

+  2.8963—  .0192 

+  .019 

—  .0019      o 

.08           .30        .15 

3298 

X  Virginia 

4.8 

34    5-057 

75-o 

+  3.  093  1  +  .007  7 

+  .009 

-.0051       o 

.05            .27         .11 

3299 

Br  1695 

5-7 

34    8.857 

71.8 

+  2.9884—  .0073 

+  .OII 

-  -0053      o 

.09            .48         .21 

3300 

L  5231 

4-8 

12  34  27.666 

86.2 

+  3-233o+  .0306 

+  .O2O 

—  .0040      o 

.13           .70        .21 

3256  W.  H.    81*  24"  214°,  rel.  fixed. 


3262  S  1647. 


i"3  223°,  slow  binary. 


CATALOGUE  OF   6l88  STARS  FOR   IQOO 


No. 

Decl.  i  goo 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H/and  100  A(i' 

Prob.  Errors. 
8Ep.  icon'  Sio 

Remarks. 

3251 

Of              it 

+  26  27  58.96 

60.8 

//           // 
—  1  9.  960  +.054 

+  .16 

a 
—  .022       o 

//       //        // 
.11      .47    .26 

17  Comae  Ber 

3252 

-  1  52  35-03 

74-7 

-19.946  +  .055 

+  •17 

—  .009      o 

•14      -55    -24 

3253 

-55  58  20.67 

86.5 

-19.932  +  .059 

+  .20 

+  .001          0 

.15      .79    .24 

33  G  Crucis  L  (5175) 

3254 

+  243942.46 

74-2 

-19.  941  +  .055 

+  .16 

-.008      o 

.08      .28    .13 

18  Comae  Ber 

3255 

-41  10  56.74 

83-3 

-19.956  +  .  058 

+  .19 

-  .025      o 

•13      -71    -23 

123  G  Centauri 

3256 

-15  57  31.46 

76.2 

-20.074  +.05  7 

+  •17 

-.143       o 

.04        .21      .08 

OrS2* 

3257 

+  21   26  59.07 

82.0 

-19.976+.  056 

+  .16 

—  .046      o 

.06        .33      .11 

20  Comas  Ber 

3258 

—  12   50  21.02 

77.0 

-I9.975  +  .057 

+  -I7 

-  .047       o 

.12         .51      .21 

ft  28.  IOM  2"  9°,  slow  binary 

3259 

-23      837.26 

81.1 

-19.936  +  .058 

+  .17 

—  .009      o 

.12         .6l      .21 

30  G  Corvi 

3260 

+  58  57  21.19 

73-7 

-19.843  +  .054 

+  •13 

+  .082      o 

.07         .25      .11 

74  Ursas  Maj 

3261 

+52    5  15.02 

73-i 

-19.910+.  054 

+  •13 

+  .015      o 

.08        .30     .14 

7  Canum  Yen 

3262 

+  10  16  11.70 

70.2 

-19.979+.  058 

+  .16 

—  .056      o 

.10      .33    .16 

* 

3263 

-5633  11.80 

72.8 

—  20.  1  94  +.062 

+  .21 

—  .272      o 

.08         .34      .15 

3264 

-   3  3°  30-22 

79-4 

—  19.922  +  .058 

+  •17 

—  .001      o 

.11          .53      .20 

3265 

+  69  45  18.66 

68.9 

—  19.  980+.  052 

+  .ii 

-  -059      o 

.06         .29      .13 

4  Draconis 

3266 

+  25    7  11.38 

72.4 

-19.935  +  .058 

+  •15 

—  .017      o 

.09         .36      .l6 

21  Comas  Ber 

3267 

+  53  37  26.30 

73-7 

-19.743  +  .056 

+  •13 

+  .174         0 

.09         .43      .18 

3268 

-58  52  17.16 

80.2 

-19.939+.  063 

+  .21 

—  .022      o 

.14         .60      .23 

35  G  Crucis 

3269 

-71  3450-05 

80.4 

—  19.926  +  .068 

+  .25 

-.013      o 

.IO         .50      .l8 

3270 

-   43°    V91 

78.7 

-i  9.886  +  .060 

+  .17 

+  .027      o 

.08         .47      .I? 

3271 

-27    051.93 

78.6 

-19.957  +  .062 

+  .18 

—  .048      o 

.14         .84      .30 

3272 

-15  3832.03 

71.6 

—  19.976+.  06  1 

+  .17 

—  .067      o 

.08         .29      .13 

3273 

—  13  18  20.40 

85.8 

—  19.  970+.  062 

+  -I7 

—  .066      o 

.12         .56      .18 

3274 

+  10  50  50.65 

74-3 

-19.898  +.062 

+  .16 

.000      o 

.10      .34    .16 

20  Virginis 

3275 

—  12  16  48.09 

86.1 

—  19.  854+.  064 

+  •17 

+  -039      o 

.11         .60      .18 

3276 

+  2450    5.60 

75-6 

-19.898  +  .063 

+  .16 

—  .007      o 

.09         .34      .15 

22  Comae  Ber 

3277 

-   8  54    1.54 

68.4 

—  19.  889  +  .064 

+  •17 

+  .OO2         O 

.06         .32      .15 

21  Virginis  q 

3278 

+  33  48    0.37 

78.8 

—  19.927  +  .062 

+  •15 

-  -037      o 

.11         .40      .17 

3279 

+41  54    2.88 

7i-5 

—  19.606+.  060 

+  •15 

+  .281-  I 

.04         .20      .09 

8  Canum  Ven 

3280 

-225037.49 

70.8 

—  19.  946+.  067 

+  .17 

—  .061      o 

.04         .19      .08 

3281 

+  70  20  21.95 

66.4 

—  19.878+.  056 

+  .10 

+  .006       o 

.03         .14      .07 

3282 

-44    657.35 

82.2 

—  2O.II2  +  .068 

+  .19 

—  .229      o 

•IS         -63      -23 

127  G  Centauri 

3283 

+  23  1047.13 

76.2 

—  19.  87  1  +  .065 

+  .16 

+  .007       o 

•07      -33    -13 

23  Comae  Ber 

3284 

+  185539.51 

66.6 

-19.858+.  066 

+  .16 

+  .016      o 

.14      .96    .44 

24*  Comas  Ber]  + 

3285 

+  185538.95 

79-4 

—  19.858  +  .066 

+  .16 

+  .016       o 

.05      .24    .09 

242  Comae  Berj 

3286 

—  40  28  15.65 

79-o 

—  19.896+.  070 

+  .19 

-.025       o 

.13         .57      .22 

128  G  Centauri 

3287 

+  7034  22.19 

66.2 

—  19.880+.  058 

+  .10 

—  .010      o 

.IO         .25      .15 

6  Draconis 

3288 

+  80  48    6.40 

72.2 

—  19.  869  +.046 

+  .05 

—  .007—    I 

.09         .38      .I? 

3289 

-68  35    4.25 

79-7 

-19.882  +  .078 

+  •25 

—  .021       o 

.IO         .50      .l8 

3290 

-   5  16  50.97 

75-8 

—  19.883  +  .070 

+  •17 

—  .027       o 

.O6         .28      .11 

25  Virginis/ 

3291 

+  17  38  25.52 

70.8 

—  19.881  +  .069 

+  •15 

—  .029      o 

.10         .43      .20 

25  Comas  Ber 

3292 

-47  59  26.64 

81.7 

-19.867  +  .075 

+  .20 

—  .018      o 

.08         .39      .14 

3293 

-2635  10.17 

81.0 

-I9-952  +  .074 

+  .18 

-.005       o 

.08         .44      .15 

328  G  Hydrae 

3294 

+  2  24  18.22 

71.1 

-19.863  +  .073 

+  .16 

—  .027       o 

.10        .47      .21 

3295 

-  3  49  25.12 

70.6 

-19.845  +  .074 

+  •17 

-.013       o 

•09      -35    -17 

W.H.   9"553"i°7° 

3296 

-29  52  20.32 

82.3 

—  19.852  +  .076 

+  .19 

—  .022      o 

•13      -75    -25 

329  G  Hydrae 

3297 

+  41  25  28.81 

66.7 

—  I9-858  +  .O7I 

+  .14 

-  .031      o 

.08      .29    .15 

9  Canum  Ven 

3298 

—   7  26  43.10 

68.4 

-19.863  +  .075 

+  -I7 

-.037       o 

.05        .22      .IO 

3299 

+  21  3644.67 

71.9 

-19.845  +  .073 

+  -I5 

—  .020      o 

.09        .42      .18 

26  Comae  Ber 

3300 

-39  26  13.51 

76.8 

—  19.  864+.  079 

+  .19 

-  .043      o 

.11         .45      .19 

132  G  Centauri  / 

3284-5  Z  1657.     20" 


134 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.  and  100  A  p. 

Prob.  Errors. 
aEp.     ioo|i    a  10 

M 

h    m         s 

8                     3 

s 

s 

rt           n          it 

3301 

L  5242 

6.0 

12  35  53-224 

88.0 

+  3-2777  +  -0379 

+  .025 

—    .0074—     I 

.16         .87       .25 

3302 

y  Centauri  m 

2.1 

35  59-993 

73-4 

+  3.  2878  +  .  0416 

+  .030 

—    .0201—     2 

.09         .38       .16 

3303 

Lai  23675 

6.2 

36    4.310 

85-2 

+  3.1106+.  0105 

+  .010 

—  .0080       o 

.12             .51          .I7 

3304 

Lai  23676 

6.1 

36    4.677 

89.7 

+  3.  1099+.  0105 

+  .OIO 

-  .0088       o 

.13      '       .60         .18 

3305 

L  5241 

5-o 

36  ii.  218 

84.4 

+    3.42  12  +.0642 

+.056 

—  .0028       o 

.l8            .78         .27 

3306 

Br  1697 

6-5 

36  32.040 

73-7 

+  3-0235—  .0016 

+  .OIO 

-  .0077       o 

.09            .28         .14 

3307 

y  Virginis  e.g. 

36  35-56i 

70.8 

+  3.  038  1  +  .0043 

+  .009 

-  -0376       o 

3308 

Br  1700 

7-4 

36  47-3!5 

70.7 

+  3.0985  +.0076 

+  .009 

+    .OOOI          0 

.09            .46         .20 

3300 

p  Virginis 

S-o 

36  49-404 

74-4 

+  3-0377-  -0015 

+  .OIO 

+  .0061       o 

.06            .34         .14 

3310 

Br  1702 

5-7 

36  53-°81 

79-o 

+    3-0395  +  -0002 

+  .009 

—  .0052       o 

.11            .39         .16 

33" 

L52SO 

4.6 

37    3-236 

82.3 

+  3.3015+.  0418 

+  .030 

—  .0120—    I 

.18      i.oo      .33 

3312 

L  5249 

6.4 

37    8.889 

82.6 

+  3.3802  +.0551 

+  .044 

—  .0048—    I 

.18            .75           27 

3313 

Br  1703 

6.1 

37  11.882 

83-2 

+  2.6398-  .0379 

+.048 

-  .0038+  I 

•05        -33      -io 

3314 

L  5251 

6.4 

37  27-720 

81.6 

+  3-3856+.  0557 

+.045 

-  .0047-  I 

.18        .72      .27 

3315 

1-5254 

6.9 

37  58-959 

87.8 

+  3.2574+  .0312 

+  .O2O 

+  .0026       o 

.18        .90      .27 

33i6 

L5258 

7-9 

38  22.406 

92-7 

+  3.1852  +.0279 

+  .018 

-  -0559-   4 

.13          1.22          .25 

3317 

Arm  2736 

6-3 

38  29.857 

70.7 

+  3.0796+.  0045 

+  .009 

+  .0032       o 

.11             .78         .32 

33i8 

Pi  168 

5-8 

38  40.618 

79.1 

+  3.  1876+.  0206 

+  •013 

—  .0030       o 

.10        .48      .18 

3319 

i  Crucis 

4-7 

39  45.068 

86.2 

+  3.4926+.  0700 

+.062 

+  .0137+   3 

.18            .92         .28 

3320 

jSMuscae  m 

3-i 

40    8.687 

79.6 

+  3.63i2  +  .ioio 

+  .118 

-  .0051-    i 

.10        .54      .19 

3321 

Br  1705 

6-3 

40  15.582 

65.0 

+  2.8470—  .0168 

+  .018 

—    .0306+    2 

.07             .30         .15 

3322 

Groomb  1922 

5-6 

40  25.950 

74-5 

+  2.8301—  .0214 

+  .O2  2 

+  .0005      o 

.08            .46         .18 

3323 

Br  1704 

5-4 

4°  33-924 

72.9 

+  3.0308     .0000 

+  .OIO 

—  .0076       o 

.10        .30      .15 

3324 

L5273 

4-9 

40  38-137 

84-3 

+  3.4i65  +  .0572 

+.045 

-  .0045       o 

.l8           .75         .26 

3325 

L5235 

7-i 

40  59-58- 

77.1 

+  2I.I72-  +  28.7II- 

-.  072—450 

.06           .51         .18 

3326 

Br  1706 

5-9 

41  17.693 

65-9 

+  3.0481—  .0009 

+  .OIO 

+  .0184       o 

.08           .33         .17 

3327 

Pi  177 

5-4 

41  39.047 

69.7 

+  2.9983—  .0044 

+  .OIO 

+  .0004       o 

.12            .57         .26 

3328 

/3  Crucis 

i.i 

4i  52-556 

72.7 

+  3.  4726+.  0660 

+•057 

—  .0062—    I 

.07            .28         .13 

3329 

Br  1707 

6-3 

42  11.637 

76.4 

+  3.0213—  .0021 

+  .OIO 

+  .0032       o 

.IO           .40        .17 

3330 

Pi  183 

6-S 

42  23.282 

83.6 

+  3.0970+.  0072 

+  .009 

—    .OOOI         O 

.08            .57         .17 

3331 

Br  1708 

6.8 

42  45-883 

74.0 

+    3.0542  +  .0022 

+  .009 

-  .0003       o 

.05           .38         .14 

3332 

Groomb  1926 

6.1 

43    2.842 

78.8 

+    2.  5786-  .0352 

+  .045 

+  .0030      o 

.09           .54         .19 

3333 

LS285 

6.0 

43    6.375 

81.2 

+    3.  1898+.  O2O3 

+  .013 

—    .OIOI         O 

.14           .92         .30 

3334 

Br  1709 

6.7 

43  13.841 

81.3 

+    3.0059-  .0027 

+  .OIO 

-  -0035      o 

.11            .40        .16 

3335 

L5279 

5-7 

43  I5-9Sl 

83.8 

+    3.8222  +  .  1339 

+.187 

+  .0028+  I 

.18           .78         .27 

3336 

Br  1713 

5-8 

43  29.274 

75-8 

+    2.4697—  .0382 

+.056 

+    .OOIO          0 

.09           .45         .l8 

3337 

Br  1710 

6.0 

43  53-577 

74-6 

+    3.0083—  .0030 

+  .OIO 

+  .0025       o 

.10        .34      .16 

3338 

Br  1712 

6.4 

44    5-791 

63-1 

+    2.7726—  .O227 

+  .024 

—  .0056+   I 

.13            .56         .29 

3339 

Br  1711 

6.0 

44  25.148 

73-6 

+    2.9278—  .0098 

+  .013 

—  .0071       o 

..09            .48         .20 

3340 

i  Octantis 

5-5 

44  27.00- 

77-3 

+  5.831  -+.866- 

+  .044-  +43 

.06            .52          .l8 

3341 

L  5294 

6.0 

45  14-564 

82.6 

+  3.4080+.  0503 

+.036 

—  .0028      o 

.l8            .70         .26 

3342 

L  5296 

S-i 

45  I5-532 

8!.7 

+  3.  2426+.  0258 

+  .014 

—  .0030       o 

.10        .56      .19 

3343 

Groomb  1931 

6.1 

45  25-587 

67-5 

+  2.8578-  .0153 

+  .016 

-  .0085+  I 

.13        .66      .31 

3344 

Pi  196 

6.9 

46  10.646 

74-4 

+  3.1180+.  0096 

+  .009 

—  .0005      o 

.11            .50        .21 

3345 

I>53°o 

6-5 

46  26.444 

80.8 

+  3.  2880+.  0315 

+  .019 

—  .0032      o 

•15        -75      -27 

3346 

Br  1714 

6-3 

46  31.448 

60.4 

+  3.0532  +  .0026 

+  .009 

—  .0022       o 

.11        .45      .25 

3347 

Br  1715 

5-i 

46  49.701 

79-° 

+  2.9264—  .0096 

+  .013 

—  .0012      o 

.05            .34        .12 

3348 

Br  1716 

6.7 

47  i3-874 

80.3 

+  2.9848—  .0042 

+  .OII 

—  .0007      o 

.11      .39     .16 

3349 

L  53°3 

6.0 

47  24.011 

86.9 

+  3.  542  1  +  .0698 

+  .060 

—  .0015       o 

.13      .90    .25 

3350 

Br  1717 

7-i 

12  47  24.280 

81.0 

+  2.9868—  .0043 

+  .OII 

+  .0018      o 

.11        .40      .16 

3302  h  4539.     2*9-2*9  i'.'s  ±  binary,  of  about  88  yrs. 


3310  p  924. 


4"  30° 


CATALOGUE  OF  6188  STARS  FOR  1900 


135 


No. 

'    Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

ji'andioo  A|i' 

Prob.  Errors. 
SEp.  loop'  Sio 

Remarks. 

3301 

0             /                 // 

-45  35  53-88 

78.6 

It                        It 

-19.764+  .083 

+  .20 

+  .038       o 

//                  //              // 

•13      -55    -22 

133  G  Centauri 

3302 

-48  2438.13 

74.0 

-19.815  +  .083 

+  .20 

—  -015       0 

•08    .35  .15 

* 

3303 
3304 

-12  27  54.83 
-12  27  58.54 

73-° 
76.0 

-I9-797  +  .079 
—  19.800+.  079 

+  •17 
+  •17 

+  .002       o 

—  .001          0 

.10      .36    .17 

.11    .38  .17 

JSi669.  6"  305° 

3305 

-59    8  12.73 

78.6 

—  19.810+.  087 

+  -23 

—  .012          0 

.14         .55      .22 

39  G  Crucis 

33<>6 

+  10  58  29.89 

70.2 

-19.795  +  .  078 

+  .10 

—  .002       o 

.08         .26      .13 

27  Virginis 

3307 

-   054    3-77 

68.9 

-19.788+.  078 

+  •17 

+  .004—     I 

See  Appendix 

3308 

-   6  57    1.69 

68.0 

-  19.838+.  081 

+  •17 

—  .049      o 

.08         .35      .16 

28  Virginis 

33<H> 

+  10  47  11.90 

72.6 

—  19.  890+.  079 

+  .16 

—  .IOI          0 

.06         .32      .14 

33io 

+  7  21  20.08 

76.2 

—  19.801  +  .079 

+  .16 

~  -013          ° 

.10      .35    .16 

31  Virginis  d1  * 

33" 

-48  15  49.92 

77-9 

-19.833  +  .  086 

+  .20 

—  .048       o 

.13         .69      .26 

136  G  Centauri  w 

33" 

-55  23  53-75 

78.9 

-19.81  7  +  .088 

+  .22 

-  -033     ° 

.13        .54     .21 

41  G  Crucis 

3313 

+  63  15  43.31 

76.6 

—  19.802  +  .07  1 

+  -II 

—  .019      o 

.05         .23      .09 

76  Ursae  Maj 

3314 

-55  37  39-68 

77-4 

—  19.807  +  .089 

+  .22 

—  .027       o 

.14        .56      .23 

42  G  Crucis 

3315 

-3937  46.29 

84-5 

-19.808+.  087 

+  .2O 

-  .036      o 

.15        .67      .23 

137  G  Centauri 

33i6 

-37    9  16.21 

88.1 

—  19.  996  +.084 

+  .I9 

-.230-  I 

•13      -95    -25 

3317 

—    i    i  37.66 

68.6 

-19.855  +  .084 

+  .16 

—  .090      o 

.09      .69    .30 

33i8 

-27  4630-59 

80.2 

-19.816+.  086 

+  .18 

-  -054       o 

.10      .42    .16 

330  G  Hydrae 

3319 

—  60  25  55.98 

77-4 

-19.825  +  .097 

+  .24 

-  .079      o 

•13      -57    -23 

h  4547-    8M  20"  37° 

3320 

-67  3338.41 

79.2 

—  I9-769+.IOI 

+  .27 

—  .029      o 

.09      .45    .16 

Russell.  3?o-4"!l2  i'/3  343° 

3321 

+39  49  19.66 

62.4 

—  19.608+.  080 

+  .14 

+  .130-  I 

.07      .26    .14 

io  Canum  Ven 

3322 

+  45  59  12.74 

72.9 

-i9-733  +  -°8i 

+  •13 

+  .003       o 

.08      .40    .17 

3323 

+  8  13  12.45 

70.8 

-I9-733  +  -°86 

+  .16 

+  .OOI          O 

.10      .29    .15 

32  Virginis  d2 

3324 

-555629.47 

79.0 

-I9-772  +  .096 

+  .23 

—  .040      o 

.14      .58    .23 

45  G  Crucis 

3325 

—  89  15    i.  08 

76.7 

-19.738  +  .  556 

—  .Oil—     2 

.06      .53    .19 

3326 

+  10    555.90 

62.3 

—  20.  1  78  +  .089 

+  .16 

-  -456     ° 

.08      .31    .17 

33  Virginis 

3327 

+  17    7  25.07 

67-3 

—  i9-722  +  .o87 

+  .16 

—  .005       o 

.10         .47      .22 

27  Comae  Ber 

3328 

-59    831.66 

73-2 

-19.741  +  .  zoo 

+  .23 

—  .028       o 

.06         .27      .12 

3329 

+  12  30  17.08 

73-4 

-19.734+.  089 

+  .16 

—  .026       o 

.08         .34      .15 

34  Virginis 

3330 

-   5  45  l6-42 

81.2 

-19-755  +  -°92 

+  .i7 

-  .050      o 

.08         .52      .17 

3331 

+  47    7-J9 

7i-5 

—  I9.7H  +  .09I 

+  .16 

—  .012          O 

.06         .30      .13 

35  Virginis 

3332 

+  63  19  36.66 

74-7 

-19.704+.  079 

+  .10 

—  .010      o 

.09         .40      .17 

3333 

-27    259.96 

75-6 

-I9-776+.095 

+  .18 

-.083      o 

.14      1.03      .38 

333  G  Hydrae 

3334 

+  14    558.16 

75-7 

-19.736+.  090 

+  .16 

-  -045     ° 

.10      .34    .15 

28  Comae  Ber 

3335 

—  71  26  26.60 

85-5 

—  19.704+.  114 

+  -3i 

-.013      o 

•15      -75    -24 

52  G  Muscae 

3336 

+  67  20  10.45 

71.6 

-19.693  +  .076 

+  .09 

—  .006      o 

.07      .29    .13 

7  Draconis 

3337 

+  1440    6.27 

70.2 

—  i9.7i6  +  .092 

+  .16 

-  .036       o 

.09     .30    .15 

29  Comae  Ber  (36  Virginis) 

3338 

+  49    042.63 

51.0 

—  19.  674+.  086 

+  .12 

+  .003      o 

.12      .37    .25 

ii  Canum  Ven 

3339 

+  28    548.66 

68.4 

—  19.661  +  .090 

+.14 

+  .011          0 

.08      .34    .16 

30  Comae  Ber 

3340 

-843448.87 

77-9 

—  19.661  +  .  173 

+  .OIO+     I 

.05      .46    .16 

3341 

-52  1432.66 

78.6 

-  19.686+.  106 

+  .22 

—  .028       o 

.14         .56      .22 

142  G  Centauri 

3342 

-33  27  14.88 

81.2 

—  19.693  +  .101 

+  .I9 

—  .036       o 

.JO         .52      .l8 

143  G  Centauri  p 

3343 

+  38    3  39-47 

63.2 

—  19.640+.  090 

+  .14 

+  .014      o 

.IO         .50      .26 

3344 

-   9  47  38-43 

69.7 

—  19.661  +  .099 

+  •17 

—  .020      o 

.10      .39    .19 

5  1682.  9M32"3oS0 

3345 

-39    8    9.08 

81.0 

-19.675  +  .105 

+  .20 

-  .038       o 

-13         -65      -23 

145  G  Centauri 

3346 

+   3  36    0.91 

59-6 

—  19.  623  +  .  098 

+  .16 

+  .OI2          0 

.10         .37      .21 

37  Virginis 

3347 

+  28    5    5.20 

76.8 

-19.656  +  .095 

+  .14 

—  .026      o 

.05         .29      .11 

31  Comae  Ber 

3348 

+  1737    4.20 

77-o 

—  19.644+.  097 

+  •15 

—  .021       o 

•  io      -35    -15 

32  Comae  Ber 

3349 

-5947    6.06 

86-3 

-19.633  +  .  114 

+  .25 

-.013       o 

.11         .80      .22 

48  G  Crucis,  Cluster 

3350 

+  1739  10.85 

74-8 

—  19.  662  +  .098 

+  .15 

—  .042      o 

.11         .36      .I? 

33  Comae  Ber 

136 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i  and  100  A  (i 

Prob.  Errors. 
aEp.      loop     aio 

M 

h    m          s 

i                     S 

s 

s 

//            //          // 

3351 

L5308 

4-3 

12  47  27.276 

83.6 

+  3-37I8  +  .0437 

+  .029 

—  .0099—    i 

.16         .78       .26 

3352 

L  S312 

4-3 

47  53-791 

85-4 

+  3-3078  +  .0323 

+  .019 

+  .0058+    i 

.08         .45       .14 

3353 

Br  1718 

6-4 

48    3.879 

65-5 

+  3.  0695  +  .0060 

+  .009 

-.0175       o 

.07         .34       .17 

3354 

32  '  H  Camelopardi 

6.1 

48  15.64- 

74-9 

+  0.416-  +  .207- 

—  .015.  +12 

.06         .26       .11 

3355 

Br  1719 

5-i 

48  22.343 

70-9 

+  2.9568—  .0062 

+  .OII 

—  .0036       o 

.09         .45       .20 

3356 

32  *  H  Camelopardi 

5-5 

48   2J.I6- 

75-2 

+  0.409-  +.208  • 

-.018.  +15 

.05            .21          .09 

3357 

X  Crucis 

4-9 

48  42.779 

91.1 

+  3-5302  +  .0665 

+  .054 

—  .0041       o 

.16      1.06      .26 

3358 

fi1  Crucis 

4.2 

48  42-839 

75-2 

+  3.4965  +  .o6io 

+  .048 

—  .0040       o 

.14        .60      .25 

3359 

/i2  Crucis 

5-5 

48  44.104 

87.8 

+  3.4979+.  0610 

+  .047 

—  .0026      o 

.18        .93      .27 

336o 

Br  1720 

6-5 

48  48.682 

79-6 

+  3.0113—  .0019 

+  .OIO 

+  .0040      o 

.10        .39      .16 

336i 

Pulkjj  1941 

6.2 

49    6-259 

91.7 

+  3.  1184+.  0104 

+  .009 

—  .0097       o 

.13        .69      .18 

3362 

</>  Virginis 

S-o 

49    9.099 

73-2 

+  3-H58+.0093 

+  .009 

—  .0016      o 

.05           .28         .12 

3363 

e  Ursae  Maj 

1.6 

49  37.896 

73-9 

+  2.6523—  .0272 

+.031 

+  .0139-     2 

.03           .15         .06 

3364 

L  5322 

5-5 

49  44-429 

87-9, 

+  3-3303  +  -0356 

+  .O2  2 

—  >  .0045      o 

.16           .90        .26 

3365 

L53i8 

6.0 

49  50.602 

86.6 

+  3-937I  +  -I4I? 

+  .197 

-.0043-  I 

.18           .8l         .26 

3366 

L532I 

5-7 

5°    3-451 

85-4 

+3.5020+.  0604 

+  .046 

-  .0044       o 

.l8           .84        .27 

3367 

8  Virginis 

3-6 

5°  33-957 

74-3 

+  3.  0205  +  .002  7 

+  .009 

-  -03-17       o 

.03           .18         .07 

3368 

L5332 

7-2 

51    7.416 

86.5 

+  3-2I75  +  .O2OI 

+  .OII 

+  .0015       o 

.12        .88      .24 

33<59 

L  S33i 

5-4 

51  18.742 

83-4 

+  3.  4304  +.0483 

+•033 

-.0039      o 

.20            .99         .33 

3370 

a'Canum  Ven 

5-4 

51  19.810 

72.9 

+  2.8134—  .0148 

+  .017 

•*-.  01.98+  I 

.06      .36     .15 

3371 

a2  Canum  Ven 

2.9 

51  21.075 

68.2 

+  2.8132—  .0148 

+.017 

-.01-99+   J 

.03      .15     .07 

3372 

Br  1727 

5-4 

Si  29.751 

82.1 

+  2.4036-  .03  19 

+  .045 

-.0005      o 

.06            .38         .12 

3373 

Br  1726 

6.2 

5i  54-733 

65.8 

+  2.6408—  .0246 

+  .029 

-.0086+  I 

•09        -33      -17 

3374 

Br  1728 

S-o 

53  58-765 

74-o 

+  2.9692—  .0039 

+  .OIO 

—  .0021       o 

.09        .42      .18 

3375 

Br  1729 

6.0 

54  30-395 

72.1 

+3.0885  +  .0065 

+  .009 

—  .0019      o 

.09        .38      .17 

3376 

LS3S7 

6-3 

55    4-057 

80.2 

+  3.  2730+.  0261 

+  .014 

—  .0056      o 

.13        .75      .26 

3377 

SMuscae 

3-5 

55  23-265 

77-7 

+  4.0554+.  1427 

+.183 

+  .0536+15 

.09        .51      .19 

3378 

Br  1732 

6-3 

55  26.920 

71.2 

+  3.0862  +  .0063 

+  .009 

—  .0020      o 

.10        .40      .18 

3379 

Br  1733 

5-2 

55  29-371 

70.6 

+  2.8752—  .0104 

+  •013 

—  .0021       o 

.10        .42      .19 

338o 

Br  1737 

5-8 

56    8.407 

67-9 

+  2.2782—  .0279 

+  .045 

—  .0255+  6 

.09        .51      .23 

338i 

Br  1734 

6-3 

56  12.931 

78.2 

+  2.9686—  .0036 

+  .OIO 

—  .0004      o 

.11        .36      .16 

3382 

Br  1736 

S-i 

56  26.296 

75-6 

+  2.5845-.  0251 

+  .029 

+  .OI20—     2 

.10        .38    .  .16 

3383 

€  Virginis 

2.8 

57  "-949 

79-3 

+  2.9867—  .0006 

+  .009 

—  .0185      o 

.03        .18      .06 

3384 

L537° 

S-o 

57  45-911 

79-2 

+  3  -45°3  +  -0463 

+.030 

-  .0053      o 

.15        .69      .26 

3385 

Pi  255 

6.2 

57  52.548 

75-9 

+  2-3563-.  0266 

+•037 

—  .0269+  5 

.09        .48      .19 

3386 

L5376 

7-5 

58  14.927 

84.6 

+  3.  2948  +  .0270 

+.015 

—  .0017      o 

.12           .57         .19 

3387 

Paris  16057  m 

5-9 

58  24.694 

88.1 

+  3.  2053  +  .0164 

+  .OIO 

+  .0100        0 

.09        .86      .21 

3388 

Br  1738  m 

6.9 

12  58  45.184 

69.8 

+  3.0878+.  0066 

+  .009 

—  .0030      o 

.08        .38      .17 

3389 

L  5369 

6.9 

13    o  17.429 

89.6 

+  4.6797  +  .2800 

+.582 

—  .0152—   6 

.14        .88      .23 

3390 

L539° 

5-o 

o  28.840 

80.8 

+  3.4546+.  0449 

+  .028 

-  .0039      o 

.16        .69      .26 

3391 

LS397 

5-9 

o  55.064 

84.6 

+  3.  3808  +  .03  5  2 

+  .O2O 

+  .0027      o 

.16      i.  ii      .33 

3392 

Br  1739 

5-3 

3.962 

60.8 

+  2.8114—  .0123 

+  .015 

—  .0021       o 

.09        .44      .23 

3393 

£  Centauri 

4-4 

4.209 

75-8 

+  3-4789  +  -0475 

+  .030 

—  .0036      o 

.13            .54         .22 

3394 

Pi  262 

7.6 

10.302 

68.4 

+  3.i6o4+.oi29 

+  .009 

-.0023      o 

.13            .54         .26 

3395 

L  5400 

5-8 

20.144 

76.4 

+  3.3247  +  .0289 

+  .015 

+  .0019      o 

.18            .94         .37 

3396 

Groomb  1956 

5-9 

22.443 

65.6 

+  2.7090-  .0173 

+  .019 

+  .0004      o 

.13            .64         .32 

3397 

Br  1740 

6-3 

28.817 

65-4 

+  2.9262—  .0051 

+  .OIO 

—  .0052      o 

.11            .50         .25 

3398 

Br  1741 

6.2 

30-594 

67.2 

+  2.9231—  .0058 

+  .OII 

+  .0023      o 

.12            .48         .24 

3399 

6  Muscae 

5-7 

39-675 

83.0 

+  3.8248+.  0959 

+  .092 

—  .0015      o 

.15            .78         .26 

3400 

L5398 

6.1 

13    i  41.651 

88.2 

+  3-5379+  -0547 

+•037 

.—  .0048      o 

.14          .78        .22 

335S  2  i687- 
3375  r 


8"  i'/i  81°,  slow;  9"  29"  126°. 

iiMjt"  53°.  3378  Clark.    9"  i'/4  153°. 


3370-1  Z  1693.    20"  227. 
3379/81081.    13*5"  341" 


CATALOGUE   OF   6 1 88   STARS   FOR    IpOO 


137 


Ko. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H/andioo  A(i' 

Prob.  Errors. 
SEp.  loop'  Sio 

Remarks. 

3351 

o        /          // 

-48  23  56.94 

79.8 

—  19.648  +  .  109 

it 

+  .22 

-  .030       o 

//         tt       tt 

.13         .59      .22 

149  G  Centauri  e 

3352 

-3938  6.24 

80.5 

—  19.  649+.  109 

+  .20 

-  .038       o 

.08         .37      .14 

150  G  Centauri  w 

3353 

-   3    035-37 

68.1 

—  I9.62i  +  .ioi 

+  .1? 

-.013       o 

.06         .25      .12 

38  Virginis 

3354 

+  83  5741-53 

73-6 

—  19.  590+.  020 

+  .014      o 

.06      .24    .10 

Br  1730 

3355 

+  21  47  18.89 

63.8 

-19.633  +  .099 

+  .15 

-.031       o 

.07         .29      .15 

35  Comae  Ber  * 

3356 

+83  5723.40 

73-2 

—  19.587+.  020 

+  .015      o 

.05         .20      .09 

Br  1731.    2  1694 

3357 

-5836  12.87 

82.8 

-19.635  +  .  117 

+  •25 

-  -039       o 

.13         .57      .20 

3358 

-5638    5-21 

74-2 

—  I9.6o9+.n6 

+  .24 

—  .013       o 

.11         .51      .21 

}  Dunlop  34"  17° 

3359 

~56373I-56 

79.8 

—  i9-6i2  +  .ii6 

+  .24 

—  .017       o 

.14        .60     .23 

jBrisb  4238 

336o 

+  12  5743-35 

76-3 

—  i9.627  +  .ioi 

+  .16 

-  -033       o 

.10      .35    .16 

41  Virginis 

336i 

—  ii    6  22.47 

86.0 

-19.589+.  105 

+  .17 

—  .001       o 

.11         .54     .17 

3362 

-   8  59  45.14 

67.6 

—  19.  609  +  .  105 

+  -I7 

—  .021       o 

.05         .22      .IO 

3363 

+  5630    9.29 

71.2 

-19.590+.  092 

+  .10 

—  .on       o 

.04         .l6      .07 

3364 

-42  22  23.57 

83-7 

—  19.609+.  113 

+  .21 

-.032       o 

•IS      -77    -25 

152  G  Centauri 

3365 

-71  3834-5i 

89.1 

—  19.606  +  .  132 

+  -34 

-.031       o 

.15      .87    .24 

53  G  Muscae 

3366 

-56  1737-39 

79-4 

-19.597  +  .  119 

+  .24 

—  .026      o 

•H     -59    -23 

54  G  Crucis 

3367 

+  3  56  26.80 

72-4 

—  19.625  +  .  104 

+  .16 

—  .064—    I 

.03      .16    .07 

3368 

-2555    5-28 

83-7 

-19.569+.  112 

+  .19 

—  .019      o 

.11      .82    .24 

336  G  Hydra 

3369 

-5039  25.29 

75-6 

-19.583  +  .  II9 

+  .23 

-.037       o 

.14     .63    .26 

156  G  Centauri  H 

3370 

+  38  51  16.45 

68.9 

—  19.498+.  099 

+  -I3 

+  .048-  I 

.06     .32    .14 

Br  1724  * 

3371 

+  38  51  29.86 

68.2 

-19.503  +  .099 

+  -I3 

+  •043-     I 

.03      .14    .06 

12  Canum  Ven 

3372 

+  65  58  Si-33 

75-7 

-19.578+.  086 

+  .08 

-  -035       o 

.06         .31      .12 

8  Draconis 

3373 

+  54  38  26-26 

60.2 

-19.541  +  .094 

+  .ii 

—  .006       o 

.08         .30      .I? 

Si  195-   8M3'.'5284° 

3374 

+  175654.17 

69.1 

-19.474+.  109 

+  .14 

+  .019       o 

.08         .33      .16 

36  Comae  Ber 

3375 

—   3  16  21.60 

67.8 

—  19.487+.  114 

+  •17 

—  .004       o 

.07         .31      .15 

44  Virginis  k  * 

3376 

-32  5749-86 

74-4 

-I9.544+.  122 

+  .20 

-.073      o 

.12         .65      .26 

162  G  Centauri 

3377 

-  71    o  34.06 

77.1 

-I9.494+.  152 

+  •35 

—  .030+     2 

.07        .42      .16 

3378 

—    2  49  51.16 

69.8 

-  19.417+.  116 

+  •17 

+  .046      o 

.08        .33      .16 

46  Virginis  * 

3379 

+  31  19  27.42 

66.5 

—  19.  486+.  109 

+  -I3 

—  .024      o 

•09        -35      -l8 

37  Coma;  Ber.    (13  Canum  Ven)* 

338o 

+  67    8  12.01 

64-3 

—  19.462  +.088 

+  .07 

—  .014—    I 

.07        .32      .16 

9  Draconis 

338i 

+  173944.54 

76.4 

-I9.479+.  113 

+  .14 

—  .032      o 

.11         .35      .16 

38  Comae  Ber 

3382 

+565418.87 

66.8 

—  19.465  +.101 

+  .09 

—  .023      o 

.08        .34     .I? 

78  Ursae  Maj  * 

3383 

+  11  2947.55 

76.0 

-19.409+.  1  15 

+  -I5 

+  .017—  I 

.03        .17      .07 

3384 

-48  59  22.45 

76.6 

-I9442  +  .  133 

+  -23 

—  .029       o 

•13      -55    -23 

165  G  Centauri  £  ' 

3385 

+  64    8  50.74 

71.9 

-19.387  +  .093 

+  .08 

+  .024—   I 

.09     .39    .18 

3386 

-33  42  46.78 

76.9 

—  19.  4IO+.  129 

+  .20 

—  .007       o 

.13         .51      .21 

3387 

-20    247.30 

89.0 

-19.392  +  .  126 

+  .18 

+  .007       o 

.09    .77  .18 

)834i.6V7"oo'.'73i20 

3388 

-   3    7  30-96 

69.7 

—  19.432  +  .  122 

+  •17 

—  .040      o 

.07    .32  .15 

48  Virginis  * 

3389 

-77  5436-95 

87.1 

-i9-376+.i85 

+  •55 

—  .019—    I 

.11     .63   .18 

43  G  Chamaeleontis  * 

3390 

-47  5537-95 

78.1 

-19.397  +  .140 

+  .23 

—  .044      o 

•13      -55    -22 

171  G  Centauri/* 

339i 

-41    3    9-48 

82.4 

-I9-379+.I38 

+  .21 

-  .036       o 

.13    .85  .27 

172  G  Centauri 

3392 

+  36  20    1.83 

58-2 

—  19.329+.  116 

+  •13 

+  .OIO         O 

.08     .41    .23 

14  Canum  Ven 

3393 

-49  22  14.55 

73-4 

-19.364+.  142 

+  .24 

—  .024      o 

.10      .42    .18 

173  G  Centauri  £2  * 

3394 

-14  22  52.04 

70.1 

-19.332  +  .  130 

+  .18 

+  .005       o 

.13     .48  .23 

3395 

-35  1928.78 

70-3 

-19.432  +  .  136 

+  .20 

-.099      o 

.16    1.18    .49 

176  G  Centauri 

3396 

+  45  48  11.99 

60.9 

-19.303  +  .113 

+  .ii 

+  .029       o 

.12         .52      .28 

£930.      I2M2'.'8lI9° 

3397 

+  21  41  23.44 

64.1 

-19.383  +  .  121 

+  .14 

-  -053       o 

.09     .36   .19 

39  Comae  Ber 

3398 

+  23    9    9.12 

64.9 

—  19.386+.  121 

+  .14 

-  -057       o 

.11     .44   .23 

40  Comas  Ber 

3399 

—  64  46  16.70 

79-2 

-I9-350+.I56 

+  -3I 

—  .024      o 

.11         .59      .21 

Dunlop.    8M  5"  185° 

3400 

-52  55  27.46 

84.9 

-I9-357  +  -I45 

+  •25 

—  .032       o 

.12         .58      .19 

177  G  Centauri 

3382  jS  1082.     IOM  i'/3  94°,  slow. 
3390  h  4567.     IIM  20"  90°. 


3388  ft  929.     7?7-7?7  o'/6  219°.  3389  h  4566.     I2M  30"  228°. 

3393  Dunlop.    IOM  35"  101°. 


138 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

|x  and  100  A  p 

Prob.  Errors, 
o  Ep.     100  (i    a  10 

M 

b    m        s 

s              s 

5 

s 

.      "                      "                  H 

3401 

Br  1743 

5-° 

13      2  22.844 

60.9 

+  2.8819-  .0081 

+  .OI2 

+  .0019       o 

.10        .50      .26 

3402 

Pi  278 

6-5 

2  25.933 

73-6 

+  2.3806—  .0249 

+  .036 

+  .0013       o 

.10        .48      .20 

3403 

Br  1742 

5-4 

239.411 

69-5 

+  3.i383  +  .oio6 

+  .009 

+  .OOIO          O 

.08      .33     .16 

3404 

Abo  292 

5-9 

3  I9-S46 

75-8 

+  3.i242  +  .oo97 

+  .009 

-r-  .0023            0 

.09      .50     .19 

3405 

\f/  Hydrae 

5-2 

3  39-999 

73-5 

+  3.2228+.oi84 

+  .OIO 

—  .0020      o 

.10        .36      .16 

3406 

Paris  16164 

6.0 

4  11.912 

99-3 

+  3.0047  +  .0003 

+  .009 

+  .OOI2         0 

.12            .90         .15 

3407 

Groomb  2006 

7-7 

4  30-28- 

63-5 

-8.665-  +  6.022- 

-.OI3-+I7 

.08            .33         .17 

3408 

Br  1746 

6-5 

431.187 

71.8 

+  3-I363  +  -oi°S 

+  .009 

—  .0001       o 

.09           .45         .20 

3409 

0  Virginis 

4.4 

4  46.289 

76.7 

+  3.  1024+.  0079 

+  .009 

—  .0026       o 

•03            .15         .06 

34io 

L54i3 

6-5 

5    0.938 

88.6 

+  3-5469+-0533 

+•035 

--  .0048      o 

.20           .90        .27 

34" 

Br  1749 

6-5 

S    5-941 

76.1 

+  2.  7671-.  0132 

+  .016 

-T.OOI2         O 

.10        .38      .16 

3412 

o  Comae  Berw 

4.4 

5    7-419 

71.1 

+  2.9199—  .0030 

+  .010 

-.0303+  I 

.07            .27         .13 

3413 

Br  1750 

7-5 

5  25-739 

70.8 

+  2.7611—  .0132 

+.016 

-.0037       o 

.10        .34      .17 

34H 

L  5420 

6.0 

5  26.934 

86.3 

+  3-3992  +  -0362 

+  .O2O 

-.0086-  I 

.15            .90         .26 

3415 

Br  1751 

6.2 

5  27.738 

82.0 

+  2.7608—  .0130 

+  .0l6 

—  .0063       o 

.06            .28         .IO 

34i6 

K  3 

8-3 

5  36-31° 

78.0 

+  3-I336  +  .OI04 

+  .009 

—  .0024       o 

.13            .54         .22 

3417 

L  5422 

5-3 

5  40.075 

80.6 

+  3-4UO+.0376 

+  .O2  1 

—  .0116—    I 

.13            .70         .25 

34i8 

L  5406 

5-9 

s  57-856 

85-9 

+  4.8426+.  2927 

+  •594 

—  .0019       o 

.09        .88      .23 

3419 

L-S4I8 

4-7 

6    2.826 

88.6 

+  3-7076+.0736 

+  •057 

—  .0067—    I 

.15      .90    .24 

3420 

£5428 

6.8 

6  12.829 

86.4 

+  3-2529+.02IO 

+  .OII 

-  .0053      o 

.13      .80    .23 

3421 

L  5429 

4.9 

6  28.494 

86.1 

+3-3305  +  -0307 

+  .016 

-.0327-     2 

.10        .52      .16 

3422 

Br  1752 

5-2 

6  44.146 

68.8 

+  3.i862  +  .oi4i 

+  .009 

+  .0063+     I 

.07      .32     .15 

3423 

Br  1753 

7-S 

6  56.286 

63-1 

+  2.7315-.  0140 

+  .016 

—  .0025      o 

.14      .50     .27 

3424 

ft  Comae  Ber 

4-3 

7  12.444 

79-7 

+  2.8032—  .0076 

+  .OI2 

—  .0604+   I 

.03            .20         .07 

3425 

L5438 

7.0 

7  13-708 

83-2 

+  3.  2906+.  0254 

+  -OI3 

—  .0170      o 

.l8          I.  O6         .34 

3426 

LS435 

6.2 

7  27-376 

82.7 

+  3-5329+  -0498 

+  .030 

-  .0043       o 

.16            .84         .28 

3427 

LS437 

5-i 

8    3-547 

91.0 

+  3-6795  +  -0706 

+  •053 

-.0327-   4 

.16         I.O2         .25 

3428 

Br  1754 

7-i 

8    5-983 

71.7 

+  3.I996+.OI57 

+  .009 

—  .0021       o 

.13            .48        .23 

3429 

i;Muscas 

5-o 

8  28.086 

85.0 

+  4.0112  +  .  1154 

+  .121 

—  .0045—    I 

.12            .75         .22 

3430 

Br  1756 

5-8 

8  49.723 

63-0 

+3.  2029+.  0163 

+  .OIO 

—  .0087—    I 

.14            .42         .24 

3431 

Pi  21 

7.0 

85I-777 

67-5 

+  3  -0545  +  -0046 

+  .009 

—  .0041       o 

.l6            .62         .31 

3432 

Pi  27 

5-i 

9  !0-959 

76.2 

+  2.  7269-  .0133 

+  .015 

—  .0039      o 

•09         -45       -17 

3433 

Br  1757 

7-S 

9  30-530 

69-9 

+  3.i39i  +  .oio7 

+  .009 

—  .0025      o 

.15      .52     .26 

3434 

Paris  16232 

6.0 

9  31-944 

83-4 

+  2.9934—  .0001 

+  .009 

+  .0049      o 

.12            .48        .17 

3435 

Pi  25 

7-4 

9  41.670 

80.7 

+  3-I3S3  +  -on4 

+  .009 

—  .0136       o 

.IO           .52         .18 

3436 

Pi  26 

8.2 

9  45-4io 

80.6 

+  3-I495  +  -OII3 

+  .009 

+  .0006      o 

.14           .82         .28 

3437 

L54Si 

4.8 

10  28.520 

87.4 

+  3-9905  +  -1087 

+  .107 

—  .0014       o 

.20        .86      .27 

3438 

Br  1758 

5-5 

10  34-223 

71.2 

+  3.  2360+.  0167 

+  .009 

db22°9+   i 

.09        .33      .16 

3439 

Br  1759 

5-9 

ii    2.203 

61.6 

+  2.7028—  .0132 

+  .016 

—  .0104+    i 

.14        .45      .26 

3440 

L  5466 

5-3 

ii  19-769 

85-0 

+3.3201  +  .0254 

+  .OI2 

+  .OO2  1         O 

.08        .52      .16 

3441 

L  5464 

6.0 

ii  25.876 

91.2 

+  3.4602  +  .0392 

+  .O2  1 

—  .0005      o 

.16      i.  20      .28 

3442 

Groomb  1977 

6-5 

ii  31.721 

69.2 

+  0.4838+.  1296 

-.378 

+  .OO26—     2 

.09        .40      .19 

3443 

Br  1760 

5-4 

ii  48.709 

70-4 

+  2-9775  +  -OOIO 

+  .008 

—  .0226       o 

.08        .27      .14 

3444 

Br  1761 

7-S 

12  12.740 

71.7 

+  3.  1392+.  0109 

+  .008 

—  .0063       o 

.08        .42      .18 

3445 

Pi  41 

S-6 

12  18.858 

69.8 

+  2.9680—  .0010 

+  .009 

+  .0006      o 

.13        .69      .30 

3446 

er  Virginis 

S-o 

12  33.280 

84.8 

+  3.0277  +  .0028 

+  .008 

—  .0009       o 

.09            .32          .12 

3447 

Br  1765 

4.8 

13      3-S65 

83.1 

+  2.6959—  .0128 

+  .015 

—  .OIII+     I 

.05            .26         .09 

3448 

Br  1763 

4.8 

13  10.339 

71.4 

+  3-I3I3  +  -OI56 

+  .009 

-.0754       o 

.06            .27         .12 

3449 

y  Hydrae 

3-2 

13  29.041 

84-9 

+  3.2529+.oi89 

+  .OIO 

+  .0048      o 

.05            .27          .08 

3450 

Br  1767 

S-2 

3  13  59-378 

58-3 

+  2.  5605-.  0167 

+  .019 

—  .0028      o 

.12            .39         .23 

3412  2  1728. 


<  i",  binary;  26  years  ±. 


3415  /3  608.     IOM  I'.'i  282° 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


139 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.'  and  100  A  p' 

Prob.  Errors. 
SEp.  looji'  810 

Remarks. 

3401 

o        /           // 

+  28    9  40.60 

61.0 

//                      // 

-19.394+.  121 

// 

+  -I3 

n 
-.085       o 

.09      .44    .23 

41  Comae  Ber 

3402 

+  62  3440-41 

71.7 

-I9.352  +  .  102 

+  .08 

—  .044      o 

.09      .38    .17 

3403 

—  IO  12   2I.OO 

62.4 

-19.320+.  132 

+  .17 

—  .018      o 

.07       .25     .14 

49  Virginis  (g) 

3404 

~     82655.55 

73-5 

-I9-357  +  -I32 

+  •17 

—  .07  1       o 

.08       .40    .16 

3405 

-2235      0.43 

76.6 

-i9.333  +  .i37 

+  .19 

-•055      o 

.08      .34    .14 

3406 

+  1033   20.83 

97.1 

-19.273  +  .  129 

+  .15 

—  .008       o 

.11       .77     .15 

3407 

+  88  ii  11.52 

61.3 

-  19.246-  .343 

+  .OI2         0 

.10      .45    .24 

3408 

-  9  47  45.64 

7i-5 

-19.281  +  .  135 

+  •17 

-  .023       o 

.08      .39    .17 

50  Virginis 

340Q 

-   5    o  18.83 

72.6 

-19.  294+.  134 

+  -I7 

—  .042       o 

.03      .15    .06 

21724.     9M7"344° 

3410 

—  52      2      2.15 

78.7 

-19.279  +  .  153 

+  •25 

-  -033     ° 

.14         .56      .22 

179  G  Centauri 

34" 

+  39    3  59-70 

59-o 

—  19.  248+.  121 

+  .12 

—  .004      o 

.12         .39      .23 

15  Canum  Ven 

34" 

+  18    3  29.61 

68.4 

—  19.121  +  .  126 

+  .14 

+  .122—     I 

.O6         .25      .12 

Br.  1748.  42  Comae  Ber* 

3413 

+  39  *5  22.78 

67-3 

—  19.  251  +  .  121 

+  .12 

—  .016       o 

.08         .30      .15 

1  6  Canum  Ven 

3414 

—  41  42    0.16 

84.0 

—  19.269+.  147 

+  .22 

-  -034       o 

.14         .79      .25 

181  G  Centauri 

3415 

+  39    *  48.79 

70.0 

—  19.  2O7  +  .  121 

+  .12 

+  .028      o 

.06         .26      .12 

17  Canum  Ven* 

34i6 

-   9  34  14-58 

76-5 

-19.243  +  .  137 

+  •17 

—  ,OI2          0 

.11         .47      .19 

3417 

-42  50    9.34 

71.6 

-19.273  +  .  148 

+  .22 

-  -043          ° 

.11         .50      .22 

182  G  Centauri 

34i8 

-77  54  59-10 

85-5 

—  19.249+.  208 

+  .60 

—  .027      o 

.09        .71      .20 

44  G  Chamaeleontis 

3419 

-5923  18.19 

85.0 

-19  254+.  161 

+  .28 

-  -034       o 

.11         .64      .19 

183  G  Centauri* 

3420 

—  26      I  12.12 

85-1 

-19.225  +  .  143 

+  .I9 

—  .009      o 

.13      .88    .26 

342  G  Hydrae 

3421 

-37  16  22.05 

80.9 

—  19.180+.  146 

+  .21 

+  .030-  I 

.11         .48      .18 

185  G  Centauri 

3422 

-15  3933.11 

72.2 

—  19.503  +  .  142 

+  .18 

-  .300      o 

.06         .28      .12 

53  Virginis 

3423 

+  41  19  27.10 

57-6 

—  19.212  +  .  123 

+  .12 

—  .014      o 

.12         .39      .24 

1  8  Canum  Ven 

3424 

+  2823    5.71 

74.6 

—  18.316+.  124 

+  •13 

+  •875-   3 

.04        .21      .08 

43  Comae  Ber 

3425 

-31   20      I.I3 

74-4 

—  19.  502  +  .  146 

+  .2O 

-.312-    i 

.16        .83      .34 

188  G  Centauri 

3426 

—  50  10    6.76 

82.4 

-19.214+.  157 

+  •25 

—  .029      o 

.14        .73      .24 

189  G  Centauri 

3427 

-5834     7.36 

83-5 

-19.344+.  164 

+  .28 

-•175-  I 

.12         .58      .20 

191  G  Centauri 

3428 

-18  17  44.71 

70.4 

-19.193  +  .  145 

+  .18 

—  .025       o 

.12         .46      .22 

54l  Virginis* 

3429 

-67  21  52.57 

81.9 

—  19.178  +  .  180 

+  -34 

—  .019       o 

.10      .55    .18 

3430 

—  19  24  20.08 

66.4 

—  18.996+.  146 

+  .18 

+  .154      o 

.12         .40      .21 

55  Virginis 

3431 

+   i  59  15.06 

68.3 

—  19.221  +  .  140 

+  .16 

—  .072       o 

.13         .54      .26 

X 

3432 

+  40  40  56.06 

70.1 

—  19.  141  +  .  126 

+  .12 

—  .001       o 

.08         .32      .15 

3433 

-   9  50  22.67 

68.1 

-19.180+.  145 

+  -I7 

—  .048       o 

.13         .41      .22 

56  Virginis 

3434 

+  n  5145-55 

81.4 

-19.185  +  .  139 

+  •15 

-  -054       o 

.12         .43      .I? 

3435 

-  10  49  53.66 

77-o 

-19.454+.  144 

+  •17 

-.327-  I 

.08         .36      .15 

3436 

—  10  49    8.78 

82.1 

—  19.132  +  .  146 

+  -I7 

—  .007      o 

•ii      -73    -23 

3437 

—  66  15  18.20 

81.8 

—  19.  140+.  184 

+  •34 

-  .034      o 

.15    -63  -23 

62  G  Muscae 

3438 

—  19  24  40.98 

72.7 

-19.232  +  .  152 

+  .19 

-.128+  I 

.10      .37    .17 

57  Virginis 

3439 

+  41  22  59.10 

57-6 

—  19.093  +  .128 

+  .ii 

—  .001       o 

.12         .39      .24 

19  Canum  Ven 

3440 

-305837.06 

81.6 

—  19.148  +  .  156 

+  .20 

—  .064      o 

.09         .50      .17 

195  G  Centauri  r 

3441 

-4327    5-33 

89.0 

—  19.112  +  .  163 

+  .23 

-.031      o 

.13         .89      .23 

196  G  Centauri 

3442 

+  81    o    1.74 

63.2 

—  19.072  +  .030 

+  .10 

+  .006       o 

.10         .40      .21 

3443 

+  9  56  47.76 

73-o 

-18.885  +  .141 

+.15 

+.186-  I 

.07         .25      .11 

59  Virginis  e 

3444 

—  10    i    9.81 

72.0 

-19.051  +  .  150 

+•17 

+  .009      o 

.08         .36      .16 

58  Virginis 

3445 

+  14  12      6.84 

64.8 

-19.032  +  .  142 

+  .14 

+  .025      o 

.12         .59      .29 

3446 

+  5  59  47-90 

82.0 

—  19.042  +  .146 

+  .15 

+  .009      o 

.08         .29      .12 

3447 

+  41    5  56.04 

77.0 

-19.033  +  .  131 

+  .11 

+  .004       o 

.06      .27    .10 

20  Canum  Ven 

3448 

-17  45  18.52 

74-3 

—  2o.n8  +  .i48 

+  .18 

-1.084-3 

.06         .27      .11 

6  1  Virginis 

3449 

-22  38  38.42 

85-4 

—  19.076  +  .  158 

+  .19 

—  .051      o 

.06         .29      .09 

3450 

+  5O  12  28.20 

46.2 

—  19.003  +  .126 

+  .10 

+  .008       o 

.12         .34      .25 

21  Canum  Ven 

3419  Innes.    8M  a"  346°. 


34S8W.H.    8Ms"3s°. 


140 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3at 

|iand  too  A  (i 

Prob.  Errors. 
aEp.  100  HI  a  10 

M 

h  m    s 

s      s 

S 

8 

//     //    // 

3451 

L  5484 

5-8 

13  J4  33-024 

84.4 

+3.6201  +  .055  1 

+  •034 

-  .0033   o 

.18    .75   .26 

3452 

i  Centauri 

2.8 

14  58-453 

80.2 

+  3-3584+-03Q3 

+  .015 

—  .O28l—  2 

.07     .30    .12 

3453 

LS489 

6.0 

15  3-763 

88.8 

+  3-5087  +  -0442 

+  .024 

—  .OI44—  I 

.21    1.  6O    .40 

3454 

Br  1766 

7-i 

15  4.762 

61.3 

+  3-I454+.OII4 

+  .008 

-  .0088   o 

.13     .40    .24 

3455 

Br  1769 

5-8 

15  50-113 

77-6 

+  2.6941—  .0123 

+  .014 

—  .0051   o 

.09     .30    .13 

3456 

L  5490 

6.7 

16  7.804 

85-2 

+  3.  8387  +  .0802 

+  .061 

—  .0023   o 

.18   .86   .28 

3457 

L  5492 

4.6 

16  10.090 

85.6 

+  3-8373  +  -o8o2 

+  .061 

—  .0046   o 

.18   .90   .28 

3458 

LS498 

6.2 

16  11.176 

95-6 

+3.6207  +  .  0541 

+  •033 

-  .0031   o 

.l6    1.20    .24 

3459 

Paris  16337 

5-8 

16  36.555 

86.6 

+  3.  0478  +  .0046 

+  .008 

-  .0045   o 

.12     .56    .18 

346o 

Pi  62 

7-5 

1  6  50.946 

76.8 

+  3.1668+.  0123 

+  .009 

+  .0005   o 

.16     .69    .28 

346i 

LS5°7 

6.7 

17  4.021 

95-2 

+  3.5622  +  .  0471 

+  .026 

—  .0006   o 

.15    I.I?    .23 

3462 

Br  1770 

6.0 

i?  7-I38 

75-0 

+  3.  023  7  +  .003  2 

+  .008 

—  .0047   o 

.11     .32    .l6 

3463 

1,5486 

S-o 

i?  I3-763 

86.9 

+  4.  6171  +  .  2080 

+  -3" 

-•0339-  7 

.l8     .82    .26 

3464 

L  55°° 

4-5 

17  17.096 

87-7 

+  3.9841  +  .0977 

+  .084 

+  .0047  +  I 

.20     .87    .27 

3465 

Br  1771 

5-6 

17  39.641 

65-7 

+  3.2o6o+.oi54 

+  .009 

—  .0040   o 

.13     .44    .23 

3466 

Pi  71 

6-5 

17  41.450 

82.2 

+  2.6297-.  0135 

+  .016 

—  .0070+  I 

.12     .58    .20 

3467 

Br  1772 

6.1 

18  7.918 

74-7 

+  3.  105  1  +  .0082 

+  .008 

—  .0016   o 

.11     .46    .20 

3468 

L55°9 

5-5 

18  32.226 

88.0 

+  3.  9685  +  .0968 

+  .084 

-.0231-  4 

.20     .90    .28 

3469 

L  5506 

6.0 

18  33-323 

88.7 

+  4.3304+.  1469 

+  .166 

+  .0168+  5 

.20     .98    .28 

3470 

Groomb  2007 

7-5 

18  38.94- 

77-8 

-2.475-  +.895- 

—  .104-  +  107 

•07    -34   -13 

3471 

Br  1773 

6.0 

19  20.817 

76.2 

+  3.  1  191  +  .0084 

+  .008 

+  .0100   o 

.09     .48    .19 

3472 

L  5504 

7-i 

19  21.416 

83.0 

+  4.  6601  +  .2069 

+  .302 

-.0120-  3 

.18     .75    .27 

3473 

L5452 

7-4 

19  43.02- 

74-7 

+  8.618-+  1.580- 

—  .004-  —  2 

.IO     .72    .27 

3474 

[  1  Ursae  Maj 

2.2 

19  54-032 

70.6 

+  2.4242—  .0172 

+  .02  1 

+  .0148—  2 

.04     .18    .08 

3475 

£2  Ursae  Maj 

4-3 

19  54.938 

74-9 

+  2.4248—  .0172 

+  .02  1 

+  .0155-  2 

.08     .42    .l6 

3476 

o  Virginis 

0.9 

19  55-444 

66.0 

+3.i553  +  .oii6 

+  .008 

—  .0028   o 

.02     .11    .05 

3477 

L5531 

5-2 

20  19.711 

88.4 

+  3  -463  1  +  -0347 

+  .017 

+  .Ol6l+  2 

.15     .84    .24 

3478 

Pi  77 

5-9 

20  20.552 

70.0 

+  2.8644—  .0048 

+  .OIO 

.0000   o 

.13     .72    .32 

3479 

L5S43 

5-8 

21   6.830 

89.2 

+3.4723  +  .  0366 

+  .017 

—  .0024   o 

.16    1.53    .36 

3480 

Br  1779 

4.0 

21  13.257 

67.0 

+  2.4116—  .0168 

+  .02  1 

+  .0143-  2 

.07     .27    .14 

348i 

Br  1775 

5-7 

21  26.127 

69.9 

+3.i636+.oi25 

+  .008 

—  .0092   o 

.08     .32    .15 

3482 

Br  1778 

5-o 

22   7.059 

69-3 

+3.i932  +  .oi44 

+  .009 

—  .0087   o 

.13     .48    .23 

3483 

Pi  96 

6.8 

22  34-854 

78.0 

+  2.0571—  .0132 

+  .023 

-.0587+  8 

.09     .48    .18 

3484 

Pi  87 

7-7 

22  56.879 

86.7 

+  3.  2846+.  0207 

+  .OIO 

-  -0053   o 

.14     .72    .22 

3485 

Pi  89 

7-8 

23  9-351 

79.8 

+3.  0885  +  .0065 

+  .008 

+  .0136+  i 

.09     .62    .21 

3486 

LSSS2 

5-4 

23  I7-358 

87.0 

+  3.  6494  +.05  28 

+  .030 

—  .0023   o 

.l6    I.I7    .32 

3487 

Br  1780 

5-2 

23  32-33I 

67.6 

+  2.9341  +  .0001 

+  .009 

—  .0167+  2 

.07     .26    .13 

3488 

Pi  109 

6-3 

23  35-07I 

82.8 

+  1.5275  +  .0075 

—  .006 

+  .0056—  I 

.05     .36    .11 

3489 

Pi  93 

7-3 

24  5.O2O 

71.1 

+  3-2325  +  .oi63 

+  .009 

+  .0024   o 

.15     .64    .29 

3490 

Pi  95 

6.8 

24  6.910 

72.6 

+  3.0765  +  .0066 

+  .008 

—  .0029   o 

.12     .51    .25 

3491 

R  Hydrae 

Var. 

24  14-765 

79-5 

+3.2686+.  0193 

+  .009 

-.0053   o 

.11     .50    .19 

3492 

Br  1781 

5-9 

24  15-745 

75-3 

+  2.9720+.  ooi  i 

+  .008 

—  .0040   o 

.10   .33   .15 

3493 

K  Octantis 

5-7 

24  42.12- 

78-4 

+  8.838-+  1.  606- 

-.073-  -72 

•05   -39   -!3 

3494 

Pi  no 

5-5 

24  46.915 

78.8 

+  2.2082—  .0149 

+  .02  1 

—  .OII4+  2 

.06   .36   .13 

3495 

Br  1782 

6-3 

25  12.631 

77-o 

+3.  1256+.  0092 

+  .008 

+  .0026   o 

.07   .34   .14 

3496 

L  5569 

3-8 

25  14.622 

78.4 

+  3.4628  +  .0342 

+  .016 

—  .0013   o 

.10   .44   .17 

3497 

Pi  133 

6.1 

26  5-559 

69.7 

+0.4643  +  .1083 

-.244 

-.0473+21 

.08     .45    .20 

3498 

Br  1783 

6.1 

26  39.186 

75-7 

+  3.  2284+.  0163 

+  .009 

—  .0063   o 

.09     .39    .16 

3499 

Br  1784 

5-o 

26  45-903 

70.0 

+  3-II53  +  -0092 

+  .008 

—  .0067   o 

.07     .26    .12 

3500 

Groomb  2008 

6-3 

13  26  55.484 

61.8 

+  2.6086—  .0113 

+  .014 

—  .0084+  I 

-13   -68   .35 

3457    6*?S  Prec.  3*3,  N  57" 


3491     4™$  to  IOM. 


CATALOGUE   OF   6 1 88   STARS  FOR    IQOO 


141 


No. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3dt 

p.'  and  100  AH 

Prob.  Errors. 
8Ep.  looji'  8  10 

Remarks. 

3451 

of             // 

-52  13  20.13 

78.1 

//                     // 

-19.044+.  177 

II 

+  .26 

—  .048       o 

//                   //                  It 

.14      .56    .23 

202  G  Centauri 

3452 

-36n    5-57 

77-8 

—  19.078  +  .  164 

+  .21 

-.094-    i 

.07         .29      .12 

3453 

—  46  21  2I.O9 

84.6 

-18.997  +  .  172 

+  .24 

—  .016—    i 

.16         .99      .30 

205  G  Centauri 

3454 

—  10  46  43.61 

64-5 

-19.000+.  155 

+  •17 

—  .019      o 

.12         .38      .21 

62  Virginis 

V 

3455 

+  4°  4°  30.96 

69-5 

-18.979+.  136 

+  .11 

—  .020      o 

.IO         .31      .l6 

23  Canum  Ven 

3456 

-602652.73 

82.3 

—  18.974+.  190 

+  .30 

-  .023      o 

.14         .67      .23 

207  G  Centauri 

3457 

—  60  27  50.82 

78.5 

—  18.969  +  .  190 

+  -30 

—  .019       o 

•13      -59    -23 

208  G  Centauri  /  * 

3458 

-51  3932.36 

92.4 

—  18.947  +  .180 

+  .26 

+  .OO2         O 

.13     .82   .19 

209  G  Centauri 

3459 

+     2  36  45.66 

82.6 

-18.990+.  154 

+  .16 

-  -°53      o 

.11    .47  .17 

3460 

-12      321.32 

81.1 

—  18.956+.  160 

+  .17 

—  .026      o 

.14     .63   .23 

346i 

—  48      2  21.89 

92.8 

—  18.916  +  .  179 

+  -25 

+  .008      o 

.12         .84     .19 

210  G  Centauri 

•. 

3462 

+  5  40  45.19 

73-8 

-18.962  +  .  153 

+  -i5 

-  -039      o 

.10      .33    .16 

64  Virginis 

3463 

—  74  21  42.86 

85-5 

—  19.069+.  229 

+  •53 

—  .I5O—     2 

.15         .67      .22 

66  G  Muscae  i1 

3464 

—  64    o  44.60 

84.7 

—  18.957  +  .  200 

+  -34 

-  -039      o 

•15      -73    -24 

214  G  Centauri  m 

3465 

—  17    12  4I.7O 

72.9 

-18.948  +  .  163 

+  .18 

—  .041      o 

•13      -5°    -23 

63  Virginis 

. 

3466 

+  44  25  34.01 

76.2 

-18.906+.  135 

+  .10 

.000      o 

.10      .43    .18 

3467 

-   4  24    5.00 

71.2 

-18.913  +  .  159 

+  .17 

—  .020      o 

.09      .38    .17 

65  Virginis 

3468 

-63  57  46.22 

85-2 

—  I8-92O+.2OI 

+  •35 

-.039-  I 

•15      -75    -24 

2156  Centauri 

3469 

—  70    6  20.84 

89.1 

—  18.905+.  219 

+  .42 

—  .024+  I 

.16     .94    .25 

67  G  Muscae 

v 

3470 

+  85  16  38.46 

74-8 

—  18.852—  .119 

+  .026—   5 

.08      .36    .15 

3471 

-   4  38  29.45 

71.4 

-18.897+.  163 

+  .17 

—  .040      o 

.08      .35    .16 

66  Virginis 

3472 

-74  10  14.79 

83-3 

-18.884+.  238 

-+•53 

—  .027—    i 

•15      -65    -23 

68  G  Muscae  i2 

3473 

—  85  18  26.18 

74-4 

-18.853  +.436 

—  .007      o 

.08      .65    .25 

17  G  Octantis 

3474 

+  55  26  51.03 

65.0 

—  18.871  +  .  129 

+  .08 

-.030+   i 

.04     .15    .08 

1  Mizar 

,' 

3475 

+  55  2638.69 

65.8 

-i8.875  +  .i3i 

+  .08 

-•°35+   i 

.07      .27    .14 

I  21744.    14"  150° 

3476 

—  10  38  22.04 

65-1 

-18.876+.  165 

+  -I7 

-  .036      o 

.02      .11    .05 

Spica 

3477 

-39  13  59-73 

78.0 

-18.907  +  .  182 

+  .23 

-.079+  I 

.12         .49      .20 

21  7  G  Centauri 

'. 

3478 

+  24  22  31.69 

62.8 

-18.842  +  .  151 

+  -I3 

—  .014      o 

•14      -59    -3i 

3479 

—  40  58  40.03 

84.4 

-18.841  +  .  183 

+  •23 

-  -037      o 

.14      .85    .26 

221  G  Centauri 

'      ' 

348o 

+  55  3°  32-33 

63.8 

-18.825  +  .  131 

+  .08 

—  .024+  I 

.07         .22      .12 

80  Ursae  Maj  g 

348i 

—  12    II    14.41 

64.0 

-  18.817  +  .  168 

+  .17 

—  .022       o 

.07         .23      .13 

68  Virginis  i 

3482 

-15   27    18.45 

67.7 

—  18.761  +  .  171 

+  .18 

+  .013       o 

.11         .37      .19 

69  Virginis 

3483 

+  63  46  28.53 

75-3 

—  18.545  +  .  in 

+  .06 

+  •215-   3 

.08         .37      .15 

3484 

—  24  41   40.96 

87.0 

—  18.762  +  .  177 

+  .19 

—  .014       o 

.12         .56     .18 

3485 

—  o  18  38.41 

78.2 

-19.157  +  .  168 

+  .16 

-.415+  I 

.08        .53      .19 

3486 

-  50  38  49.39 

78.8 

-18.757  +  .  197 

+  .26 

—  .019      o 

.12        .59     .22 

224  G  Centauri  K 

3487 

+  14  18  45.92 

69.8 

—  19.316  +  .  160 

+  .14 

-.586-  I 

.06         .27      .12 

70  Virginis 

3488 

+  725438-53 

79-4 

-18.745  +  .  088 

+  .04 

—  .017       o 

.05         .31      .11 

Groomb  2001 

3489 

—  18  12  40.08 

76.0 

-18.733  +  .  177 

+  .19 

—  .020      o 

•13      -59    -24 

3490 

-   o  50  42.91 

76.4 

-i8-773  +  .i68 

+  .16 

—  .061       o 

.11      .41    .18 

3491 

-22  45  52.42 

84.7 

—  18.704+.  179 

+  .19 

+  .004       o 

.10     .49    .16 

347  G  Hydrae  * 

J 

3492 

+  11   20  I2.O5 

74-7 

—  18.750+.  164 

+  •15 

-  -043      o 

.10      .31    .15 

71  Virginis 

3493 

-85  16  24.65 

79-9 

-i8-7i7  +  .469 

-.024—   4 

.05         .37      .12 

3494 

+6027  43.93 

74-8 

-18.657  +  .  124 

+  .07 

+  .034-    i 

•o?      -33    -13 

3495 

-   557  I5-I7 

68.5 

-18.666+.  174 

+  -I7 

+  .OII         O 

.07      .31    .15 

72  Virginis  /*  * 

3496 

-3853  27.10 

74-9 

—  18.701  +  .  191 

+  -23 

-  .025      o 

.09      .38    .16 

227  G  Centauri  d 

'.. 

3497 

+  79    937-55 

66.6 

—  18.627  +  .030 

+  .10 

+  .O22—     2 

.08      .40    .19 

Groomb  2012 

3498 

—  18  12  48.41 

73-6 

-  18.654+.  181 

+  .19 

-  .023      o 

.09      .36    .16 

73  Virginis 

3499 

-   5  44  22.56 

65.6 

-18.676+.  175 

+  •17 

—  .049       o 

.06        .23      .12 

74  Virginis  /  (/') 

3500 

+  42  37  13.90 

54-7 

-18.603  +  .148 

+  .10 

+  .019      o 

.10      .49    .29 

3495X1750.     i2M3o"i6°. 


142 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag 

R.  A.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3"t 

liand  100  Ap 

Prob.  Errors. 
a  Ep.  loop  aio 

M 

b  m    s 

s      s 

s 

s 

"      ft     tt 

3501 

Pi  112 

6.8 

13  26  59.062 

77-7 

+  3-34I5  +  -0243 

+  .OII 

-  .0059   o 

.10     .51    .20 

3502 

L558o 

5-9 

27   1.631 

87.0 

+  3-3294+  -0236 

+  .OII 

—  .0083   o 

.11    .66   .19 

3503 

Br  1785 

5-8 

27  30.997 

70-3 

+  3.1999+  .0142 

+  .008 

-  .0045   o 

.IO     .50    .22 

3504 

Br  1786 

5-5 

27  4I-987 

71.2 

+  3.I552  +  .OH3 

+  .008 

—  .0020   o 

•°7    -33   -H 

3505 

Br  1787 

7-5 

28  n.ooo 

67.2 

+3.  1293  +  .0099 

+  .008 

—  .0056   o 

•13    -54   -27 

3506 

Br  1788 

S-o 

29  3-845 

65.6 

+  3.  0382  +  .0045 

+  .008 

+  .0028   o 

.08    .32   .16 

3507 

Pi  126  m 

6.0 

29  21.376 

77-i 

+  3.i826  +  .oi3i 

+  .008 

—  .0042   o 

.10    .62   .23 

3508 

£  Virginis 

3-3 

29  35.827 

74-2 

+  3.  0540  +.0064 

+  .008 

—  .0191   o 

.03    .15   .06 

3509 

'Br  1792 

5-8 

30  16.663 

64.0 

+  2.3138-  .0138 

+  .019 

—  .0020   o 

.11    .44   .23 

3510 

Br  1790 

6.0 

30  19.102 

72.5 

+  3.ii75  +  .oo88 

+  .007 

+  .0013   o 

.09    .40   .18 

35" 

Pi  136 

S-i 

30  19.946 

85-1 

+  2.6828—  .0092 

+  .013 

+  .0070   o 

.05    .34   .10 

3512 

Br  1791 

4.8 

30  22.153 

70.1 

+  2.4586—  .0127 

+  .OI6 

—  .0120+  I 

.07  .27  .13 

3513 

L  5589  m 

5-7 

30  25.225 

84.4 

+  4.O226  +  .o874 

+  .062 

+  .0167+  4 

.16   .90   .28 

35H 

L  5S77 

6.6 

30  38.201 

89-5 

+  5.0096+.  2413 

+  •358 

—  .0078—  i 

.15   .86   .23 

3515 

Pi  iJS 

5-6 

31  15.480 

83-2 

+  3-3I82  +  .0220 

+  .OIO 

—  .0067   o 

.10   .58   .18 

3Si6 

Br  1793  m 

7-4 

32  20.805 

67.0 

+  3.1388+.  0102 

+  .007 

—  .0012   o 

.11    .48   .24 

3517 

Pi  143 

7-3 

32  45-436 

83.0 

+  3.3672  +  .0248 

+  .OII 

—  .0008   o 

.14   .66   .22 

35i8 

Dpt  1544 

S-o 

33  i-"7 

79-2 

+  2.6690—  .0084 

+  .OI2 

—  .0086   o 

.07   .44  .15 

3519 

Pi  146 

6.2 

33  4-8i5 

79-o 

+3-3592  +.0246 

+  .OIO 

—  .0064   o 

.11     .54    .20 

3520 

L  5609 

5-9 

33  10.597 

92-3 

+4.1513+.  1023 

+  .080 

—  .0079—  I 

.20   1.17   .28 

3521 

€  Centauri 

2-3 

33  32-974 

71-4 

+3-7719+  -0592 

+  -°33 

-  .0034   o 

.09   .36  .17 

3522 

Groomb  2022 

8.1 

33  41-201 

86.1 

+  2.6122—  .0090 

+  -OI3 

—  .OI92+  2 

.08   .45  .14 

3523 

Pi  156  m 

6.9 

33  42.590 

70-5 

+  2.4093-.  0125 

+  .017 

—  .0016   o 

.13   .48  .23 

3524 

L  5622 

5-8 

33  48.839 

85.6 

+  3.  6807  +  .05  10 

+  .025 

-.0132—  I 

.18    1.22    .35 

3525 

L5625 

5-7 

33  55-983 

92.8 

+3.5090+.  0355 

+  .015 

—  .0030   o 

.l8    1.19    .27 

3526 

Pulkw  2035  m 

5-7 

34  38.733 

80.8 

+  2.9580+.  0016 

+  .007 

—  .0076   o 

.11     .46    .l8 

3527 

Groomb  2029 

5-8 

34  46.831 

83-3 

+  I.4355  +  .OI28 

—  .OI2 

—  .OO8O+  2 

.05     .44    .12 

3528 

L  5632 

5-5 

35  20.359 

87.8 

+  3-8i23  +  .o622 

+  •035 

—  .0048   o 

.18     .92    .27 

3529 

1,5627 

5-6 

35  22.928 

87-4 

+  3.9415  +  .0755 

+  .047 

—  .0050   o 

.20     .87    .28 

3530 

Br  1799 

5-5 

35  38-326 

66.0 

+  2.3262—  .0120 

+  .017 

—  .Ol6l+  2 

.12     .40    .21 

3531 

Br  1797 

5-8 

35  53-909 

60.4 

+  2.8664—  .0020 

+  .008 

-  -0033   o 

.09     .40    .22 

3532 

Pi  161 

7.6 

35  54-341 

88.1 

+  2.8663—  .0021 

+  .008 

—  .0028   o 

.11     .51    .16 

3533 

Br  1798 

5-9 

36  18.520 

65.2 

+  2.8397-  .0030 

+  .009 

—  .0012   o 

.11     .54    .27 

3534 

Br  1796 

5-3 

36  21.739 

77-o 

+  3.i440+.oio8 

+  .007 

—  .0069   o 

.04     .21    .08 

3535 

L  5640 

6-5 

36  23.792 

84.2 

+  3.  8880  +.0689 

+  .040 

—  .0014   o 

.18     .75    .26 

3536 

Br  1802 

S-o 

36  56.749 

77-4 

+  2.2804—  .0119 

+  .017 

—  .0029   o 

•°8     -33    -13 

3537 

Br  1800 

5-7 

38   2.IO2 

70.7 

+  3.0136+.  0050 

+  .007 

-.0195   o 

.07     .26    .12 

3538 

Pi  171 

7-3 

38  19.261 

70.8 

+  3.io75  +  .oo86 

+  .007 

—  .0015   o 

.18     .64    .31 

3539 

Pi  184 

6.0 

38  23.170 

70-4 

+  1.8709-  .0055 

+  .012 

+  .0095—  2 

.09     .45    .20 

3540 

Pi  174 

6.8 

38  4L983 

76.7 

+  3.1179+.  0092 

+  .007 

—  .0032   o 

.IO     .45    .18 

3541 

Abo  310 

6-5 

39  1-723 

75-o 

+  2.8365—  .0029 

+  .009 

+  .0041   o 

.IO     .62    .24 

3542 

Br  1801 

5-9 

39  6.003 

72.4 

+  3.230o+.oi5i 

+  .007 

+  .0005   o 

.09     .42    .18 

3543 

Pi  179 

7-4 

39  42-301 

67-7 

+  3.  1404+.  0104 

+  .007 

—  .0024   o 

.14    .58   .28 

3544 

Br  1803 

4-3 

4O  O.2II 

78.8 

+  3-3959+-0277 

+  .OII 

-.0368-  2 

.08    .38   .14 

3545 

Pi  180 

5-9 

40  1.951 

83.0 

+  3-3375  +  -0220 

+  .009 

-  .0057   o 

.11    .54   .18 

3546 

Br  1804 

6.4 

40  11.927 

71.1 

+  3-2242  +  .OI49 

+  .007 

—  .0026   o 

.09    .44   .19 

3547 

L  5664 

4-7 

40  19.446 

84.2 

+  3.7704+.  0550 

+  .027 

+  .OOO2    O 

.13     .69    .22 

3548 

Br  1805 

5-7 

40  36.506 

70.9 

+  3.  1907  +  .0130 

+  .007 

—  .0016   o 

-08   .33   .15 

3549 

1,5676 

5-3 

41  6.505 

81.1 

+  3-48i4+.03i4 

+  .012 

—  .0018   o 

.16   .75  .27 

3550 

i—  —  — 

L  5674 

5-6 

3  4i  22.330 

91.4 

+  3-7332  +  -  0524 

+  .024 

—  .Ol66—  2 

.20   1.18   .29 

3S°7  ft  932-     6f6-i*o  o'.'4  89°,  very  slow;  i2M  25"  154°. 

3515  W.  H.     7*0  10"  192°. 

3518  2  1768.     8?5  I'.'i  133°;  binary,  200  yrs.  ±. 


3513  Innes.     6*2-6'?';  o'.'4,  rapid  binary. 
3516  S  1763.     7*!'o-7""3  2'/7  42°,  fixed. 
3522  2  1769.     IOM  2'/4  27°;  8"*s  S6"  259° 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


143 


Ho. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i'and  iooA|i' 

Prob.  Errors. 
SEp.  too  i*'  Sio 

Remarks. 

3501 

o        /           // 

-29    3    2.98 

80.3 

//                      // 

-18.621  +  .  188 

n 

+  .20 

—  .001       o 

//         //       // 
.11      .49    .18 

349  G  Hydrae 

3502 

—  28  10  39.12 

88.2 

-18.640+.  187 

+  .20 

—  .021          0 

.11         .87      .22 

350  G  Hydrae 

3503 

-I4S055-SO 

67-7 

-  18.614+.  181 

+  .18 

—  .Oil          O 

.09         .45      .21 

75  Virginis 

3504 

-   9  38  59-59 

70-3 

—  18.641  +  .  179 

+  -I7 

—  .044      o 

.06         .33      .14 

76  Virginis  h 

3505 

-76  33-04 

66.7 

-18.590+.  179 

+  -I7 

—  .009      o 

.12         .41      .22 

77  Virginis 

3506 

+  4  10  20.93 

63.0 

-18.583  +  .  176 

+  -I5 

-.031       o 

.08         .32      .I? 

78  Virginis  o 

3507 

-1242    5.99 

75-9 

-18.569+.  184 

+  .18 

—  .027       o 

.09         .51      .20 

* 

3508 

-   o    5    5.11 

72.9 

—  18.500+.  176 

+  .16 

+  .034-  I 

.03         .15      .06 

3509 

+  55  5i  39-°8 

53-5 

—  18.522  +  .  137 

+  .07 

—  .010      o 

.10      .40    .23 

81  UrsaeMaj 

35io 

-   4  53  12.84 

69.8 

-18.438  +  .  182 

+  .!6 

+  .072      o 

.08        .33      .16 

80  Virginis 

35" 

+  37  4i  40.46 

78.9 

-18.529+.  158 

+  .10 

—  .019      o 

.06        .31      .11 

35" 

+  493I  37-85 

63-1 

-18.493  +  .  145 

+  .09 

+  .015-  I 

.07         .23      .!3 

24  Canum  Ven 

3513 

—  61  10  40.47 

80.9 

-18.639+.  230 

+.34 

-.132+  I 

.13        .67      .23 

235  G  Centauri  * 

35H 

-75  1025.61 

90.0 

-18.5364-.  289 

+.63 

-  .036      o 

.12         .82      .20 

49  G  Chamasleontis 

3515 

-  25  59    6.07 

83.0 

-18.463  +  .195 

+  .20 

+  .015       o 

.08         .46      .15 

351  G  Hydraa  * 

35i6 

-   7  21  42.37 

63.8 

-18.448+.  187 

+  •17 

—  .007       o 

.09         .36      .19 

8  1  Virginis  * 

3517 

—  29  19  48.16 

76-3 

—  18.399+.  201 

+  .20 

+  .028       o 

.12         .52      .21 

353  G  Hydrae 

35i8 

+  36  48  12.29 

74-1 

—  i8.4O4+.i6i 

+  .11 

+  .014      o 

.06         .32      .13 

25  Canum  Ven  * 

3519 

-29    3    0.25 

76.8 

—  18.494+.  201 

+  .20 

—  .078      o 

.10      .47    .19 

354  G  Hydrae 

3520 

-64    4    7.12 

90.7 

-18.458+.  247 

+  -37 

-  -045      o 

.17      I.O2      .26 

243  G  Centauri 

3521 

-525728.78 

75-3 

—  18.427  +  .  226 

+  .28 

—  .027       o 

.08        .37      .15 

3522 

+  3941  27.24 

81.0 

-18.558+.  158 

+  .10 

-.163-  I 

.07         .34      .12 

* 

3523 

+  51  13  24.66 

58.3 

—  18.401  +  .147 

+  .08 

—  .007       o 

.IO         .39      .22 

51770.    6V8"i2"i2i° 

3524 

-492633.93 

81.5 

-18.397  +  .220 

+  .27 

—  .006—    I 

.14         .84      .28 

246  G  Centauri 

3525 

-393232.68 

92.4 

-18.466+.  211 

+  .24 

-  .079       o 

.15      1.07      .24 

248  G  Centauri 

3526 

+  11  15  14.67 

78-5 

-!8.373  +  .i8o 

+  .14 

—  .Oil         0 

.IO         .42      .17 

* 

3527 

+  71  45    3.68 

81.7 

—  18.364+.  091 

+  .04 

—  .007       o 

.05         .39      .12 

3528 

-54    3    9-26 

82.4 

-18.391  +  .232 

+  .29 

-  -054       o 

.15         .64      .23 

250  G  Centauri  Q  * 

3S2Q 

-58  1651.16 

86.0 

—  18.362  +  .  240 

+  .32 

—  .026      o 

.16         .77      .24 

251  G  Centauri 

3530 

+  53  25  36-02 

53-2 

—  18.271  +  .  144 

+  .07 

+•055-  I 

.11         .34      .22 

82  Ursae  Maj 

3S3I 

+  20  27  40.80 

62.5 

-18.308+.  177 

+  •13 

+  .009      o 

.07         .35      .18 

i  Bootis  * 

3532 

+  20  31    9.62 

84-5 

-i8.295  +  .i77 

+  •13 

+  .O22          O 

.11         .42      .15 

3533 

+  23    o    8.31 

63-9 

—  18.340+.  176 

+  .12 

-  -037       o 

.10      .44    .23 

2  Bootis 

3534 

-   8  ii  54.50 

71.7 

—  18.265  +  .  194 

+  •17 

+  .036      o 

.04         .20      .09 

82  Virginis  m 

3535 

-56  15  46.19 

80.2 

-18.321  +  .  239 

+  •31 

—  .021      o 

.15         .60      .23 

253  G  Centauri 

3536 

+  55  ii  15.61 

69-5 

-18.293  +  .  144 

+  .07 

-.013       o 

.07         .25      .12 

83  Ursae  Maj 

3537 

+  42  38.07 

65-9 

—  18.319+.  189 

+  •15 

-.078-  I 

.06         .22      .12 

84  Virginis  o  * 

3538 

—   3  46  12.62 

64.6 

—  18.260+.  196 

+  .16 

-  .030      o 

.14         .43      .24 

21775.   ioM28"335° 

3539 

+  65  1938.57 

66.3 

—  I8.24I  +  .  122 

+  .05 

-.013+  I 

.08         .38      .18 

3540 

-   4  59  43-04 

76-3 

-I8.242  +  .  197 

+  .16 

—  .026      o 

.09         .40      .l6 

3541 

+  23  12  16.38 

71.2 

-  18.247  +  .  181 

+  .12 

-  -043       ° 

.08         .47      .20 

3542 

-15  4034-15 

72.1 

—  18.207  +  .  205 

+  .18 

—  .005       o 

.09         .36      .l6 

83  Virginis 

3543 

-   7    7  56.00 

68.3 

—  i8.i75  +  .2oi 

+  .16 

+  .005       o 

.12         .48      .23 

3544 

-32  32  16.92 

73-6 

-18.321  +  .  215 

+  .22 

--I53-     2 

•09      .37    -16 

i  Centauri  i 

3545 

-253650.74 

79-7 

-i8.i87  +  .2i2 

+  .2O 

—  .020      o 

.09      .37    .14 

357  G  Hydrae 

3546 

-  15  15  54.68 

68.5 

-18.198+.  206 

+  .18 

-.037      o 

.08      .36    .17 

85  Virginis 

3547 

-505551.23 

83.0 

—  18.189+.  241 

+  .28 

—  .032       o 

.11      .60    .20 

266  G  Centauri  M 

3548 

-"  5531-73 

65-6 

—  18.146+.  205 

+  -I7 

.000         0 

.07      .28    .14 

86  Virginis  * 

3549 

-35  45    3-86 

7°-4 

—  18.141  +  .  224 

+  .22 

—  .014      o 

.16      .69    .32 

267  G  Centauri  z 

3550 

-4949  13-99 

88.9 

—  18.144+.  240 

+  .28 

—  .026—    I 

.15      .99    .26 

269  G  Centauri 

3526  /3  612. 


i  <  i";  binary,  30  yrs.  ±. 


3S28Dunlop.     s""8-7Mi  5"  163°.          353!  2  1772.     9"  5' 


3548  S  1780.     IOM  x','6  298°;  IIM  27"  164°;  CD: 


274° 


144 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   1 900 


No. 

Designation. 

Mag 

R.  A.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3dt 

M.  and  100  A  p. 

Prob.  Errors. 
aEp.      loop     aio 

M 

b    m       s 

s               s 

s 

s 

"              //           // 

3551 

Grw«>  1093 

6-5 

13  41  56.249 

76.8 

+  3.i664+.oii5 

+  .007 

+  .0008       o 

.IO            .62          .22 

3552 

Groomb  2044 

6.0 

4I  58.817 

70-7 

+  2.5521—  .0086 

+  .OI2 

-.0097+   i 

-12        -57      -25 

3553 

Br  1806 

5-9 

41  58.879 

66.4 

+  3-2556+.oi63 

+  .007 

+  .0034       o 

.10            .40         .21 

3554 

Pi  194 

6-5 

42     0.043 

80.0 

+  2.9707  +  .0040 

+  .007 

-.0326+   i 

•  10            .63          .22 

3555 

Br  1808 

6.2 

42     4.731 

74-5 

+  2.7876—  .0037 

+  .009 

—  .0014      o 

.10        .44      .18 

3556 

Pi  192 

7-3 

42  11.783 

74-o 

+  3-I293  +  .0099 

+  .007 

-.0057       o 

.14       -7°      -29 

3557 

Groomb  2053 

6-3 

42  13.271 

72.8 

+  0.1989+.  1235 

-.263 

—  .0232+  7 

.09            .52         .21 

3558 

r  Bootis 

4.6 

42  30.607 

78.6 

+  2.8510—  .0005 

+  .008 

—  .0340+   i 

.03            .20         .07 

3559 

Groomb  2047 

5-8 

42  41.108 

66.3 

+  2.593  1  -.0078 

+  .OI2 

-.0097+   i 

.14            .72          .34 

356o 

L  5680 

7-i 

42  49-5Sl 

92-4 

+  3.5061  +  .0324 

+  .013 

+  .0028      o 

-13        .88      .20 

356i 

Br  1812 

5-8 

42  51.792 

65-7 

+  2.2450—  .0104 

+  .015 

—  .0012      o 

.12           .57         .28 

3562 

L  5633 

5-9 

42  52-355 

82.4 

+  7.2957  +  .7402 

+  2.043 

+  .0056+11 

.11         1.44         .41 

3563 

Br  1809 

6.8 

43    4.017 

76-5 

+  3-I339+-0100 

+  .007 

—  .0030      o 

.11            .46         .19 

3564 

v  Centauri 

3-5 

43  30.281 

82.8 

+  3-5798  +  .  0380 

+  .015 

—  .0030       o 

.10        .54      .18 

3565 

p.  Centauri 

3-3 

43  35-446 

83-4 

+  3-5955  +  -0392 

+  .016 

—  .0020      o 

.12           .57         .19 

3566 

17  Ursas  Maj 

1.8 

43  36-072 

69.7 

+  2.3691—  .0100 

+  .014 

—  .OI2I+    I 

.02            .11         .05 

3567 

Br  1807 

4-3 

43  39.010 

84.8 

+  3.4619+.  0295 

+  .011 

-  .0037      o 

.11            .51         .17 

3568 

Groomb  2051 

6.9 

43  51-825 

78.8 

+  2.5382-.  0088 

+  .013 

+  .0029      o 

.12            .54         .20 

3569 

1-5678 

5-9 

44    0.838 

84.9 

+  4-5941  +  -I449 

+•134 

+  .0029+  I 

.18            .84         .28 

3570 

Pulkjj  2063 

5-9 

44    8.004 

89-S 

+  2.7087—  .0056 

+  .OIO 

—  .0016      o 

.13            -57         .18 

3571 

Br  1811 

5-2 

44  26.200 

74-5 

+  3.  2524+.  0164 

+  .007 

—  .0069       o 

.06            .30         .12 

3572 

v  Bootis 

4.2 

44  39.236 

74-3 

+  2.  893  1  +  .OOO  I 

+  .008 

—  .0070       o 

.08            .32          .14 

3573 

Br  1816 

5-2 

44  59-095 

71.4 

+  2.8376—  .0019 

+  .008 

+  .OOI2          0 

.10           .46         .21 

3574 

Pi  263 

6.3 

45  i°-4i  ' 

77-2 

-I.QII-  +.519- 

+  .0219—   6 

.06            .32          .12 

3575 

LS702 

6.0 

45  3S-398 

83.0 

+  3-  6944  +.0463 

+  .O2O 

—  .0020      o 

.18            .94         .31 

3576 

L  5700 

5-5 

45  38-11? 

86.3 

+  3.8365  +  .0586 

+  .029 

-  .0054      o 

.16            .78         .25 

3577 

Br  1814 

4.6 

46    3-153 

77.0 

+  3.  4488  +.028  1 

+  .OIO 

—  .0036      o 

.10        .40      .17 

3578 

Pi  217 

6-3 

46    3.816 

76.8 

+  3.  447  1  +  .028  1 

+  .011 

-  -0053       o 

.15           .60         .25 

3579 

L  5712 

6.4 

46  16.557 

81.8 

+  3-4277  +  .0268 

+  .OIO 

—  .0056      o 

•T5        -93      -30 

358o 

Pulkj,  2066 

6.9 

46  39.746 

83.8 

+  2.6502—  .0064 

+  .OIO 

+  .OO2O         O 

.10       .63      .19 

358i 

Pulkw  2067 

6.2 

46  44.461 

74.8 

+  2.6491—  .0063 

+  .OIO 

—  .0005      o 

.12        .78      .30 

3582 

Pi  233 

6-5 

47    1.440 

74-3 

+  2.0664—  .0079 

+  .013 

-  .0032      o 

.10        .44      .18 

3583 

L  5696 

5-8 

47  12.493 

92.2 

+  4.4979+.  1287 

+.106 

—  .005  1       o 

.20      1.16      .28 

3584 

jrwgi  1610 

5-i 

47  22.854 

89.8 

+  2.6488-  .0062 

+  .OIO 

—  .0019      o 

.12        .66      .18 

3585 

Pi  225 

6-3 

47  24.469 

68.6 

+  2.9391  +  .001  7 

+  .007 

+  .0023      o 

.16        .69      .33 

3586 

Br  1817 

4.8 

47  27.088 

83-3 

+  3.  4400  +.02  7  1 

+  .OIO 

—  .0014      o 

.10        .51      .17 

3587 

L,  5726  m 

5-8 

47  41-949 

85-1 

+  3-49i3  +  .o3o8 

+  .OII 

-  .0075      o 

.16        .88      .28 

3588 

Br  1818 

6.0 

48  26.221 

59-4 

+  2.8667—  -0005 

+  .008 

—  .0027       o 

.14        -39      -24 

3589 

Br  1823 

4.8 

48  30.689 

76.7 

+  1.7528—  .0004 

+  .007 

+  .0004       o 

.05        .27      .10 

3590 

Pi  230 

6-5 

48  36.893 

81.1 

+  3.3846+.  0241 

+  .009 

-.0131       o 

.12        .57      .21 

3591 

Pi  235 

6.1 

48  38.193 

71.7 

+  2.7232—  .0042 

+  .009 

—  .0090      o 

•J5        -78      -33 

3592 

L  5727 

6.0 

48  45-023 

90.0 

+  3-8395  +  -0572 

+  .027 

-  .0052       o 

.20      1.04      .28 

3593 

',  Centauri 

2.6 

49  17.974 

75-i 

+  3.7  195  +  .047  1 

+  .019 

—  .0060      o 

.09        .38      .16 

3594 

3r  1819 

5-4 

49  33-991 

83-3 

+  3-°775  +  -oo77 

+  .007 

—  .0057      o 

.07        .44      .14 

3595 

Br  1820 

6-5 

49  43.418 

73-8 

+  3.i43i  +  .oio8 

+  .007 

—  .0110      o 

.IO            .50         .20 

3596 

tj  Bootis 

2.7 

49  55-402 

7i-3 

+  2.8567  -.0003 

+  .008 

-.0045+  I 

.02           .14         .06 

3597 

Br  1824 

S-8 

50  10.334 

65-3 

+  2.2125—  -0086 

+•013 

—  .0023      o 

.11            .48         .24 

3598 

jroomb  2066 

6.9 

5°  21.324 

72.1 

-0.2804+.  1773 

-•405 

-.0167+  8 

.09           .51         .21 

3599 

L  5733 

4-7 

50  24.530 

86.0 

+  4.  2927  +  .  1008 

+.068 

-  -0053      o 

•!5        -75      -23 

3600 

Br  1822 

6.1 

3  51  22.161 

79-5 

+  3  -0533  +  •0065 

+  .006 

—  .0023       o 

.11     .34    .15 

3576  Rttmk.     7YS  1 8"  289°. 


3579  P  343-    8M  i'/a  120°,  slow. 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


Ho. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

n'  and  i  oo  AH-' 

Prob.  Errors. 
SEp.  100  |i'  Sio 

Remarks. 

3551 

O           /               It 

-   9  12  30.29 

73-4 

n          it 
—  18.136  +  .  206 

// 

+    -17 

// 
—  .040      o 

//        //        // 
.08      .47    .19 

3552 

+  4i  35  24-34 

64.8 

-18.153  +  .  167 

+    .10 

-.058-   i 

,IO         .40      .21 

3553 

-17  21  33.54 

68.8 

-18.138+.  212 

+    .18 

-  -043       o 

.11         .41      .20 

87  Virginis 

3554 

+  6  51  11.87 

75-5 

—  I8.2O9+.  192 

+    -IS 

—  .115—     2 

.09         .49      .19 

3555 

+  26  12  13.74 

71.4 

-l8.IS8  +  .  l83 

+     .12 

—  .067       o 

.08         .36      .16 

3  Bootis 

3556 

-   6  12  19.88 

71.6 

—  i8.ioi  +  .2O4 

+     .16 

—  .014      o 

.12         .52      .23 

3557 

+  7833  54-34 

68.6 

—  18.046  +  .  019 

+     -13 

+  .040—     I 

.O?         .39      .18 

3558 

+  17  57  18.07 

76.4 

—  18.049  +  .  185 

+     -13 

+  .026—     2 

.04        .20     .08 

02270.  nM8'.'s  356°,  slow 

3559 

+  39    2  33-57 

65.0 

—  i8.ioi  +  .i7i 

+     .10 

-•°33-     ! 

.12         .55      .28 

356o 

-3637  43-iS 

83.8 

—  18.067  +  .230 

+      .22 

—  .004      o 

.16         .89      .28 

270  G  Centauri 

356i 

+  5455  56-42 

57-7 

—  18.072  +  .  150 

+      .07 

—  .on      o 

.11         .41      .24 

84  Ursas  Maj 

3562 

—  82  10  14.99 

82.9 

-I8.H3  +  .470 

+  1.62 

—  .052      o 

•10    i-SS    -43 

50  G  Chamaeleontis 

3563 

—   6  20  18.09 

74-4 

-18.082  +  .206 

+     .16 

—  .028      o 

.09      .36    .16 

88  Virginis  (n) 

3564 

—  41  ii  21.62 

78.2 

-18.062  +  .235 

+     .24 

—  .025       o 

.08      .41    .16 

3565 

-41  58  31.70 

77-3 

—  18.052  +  .  236 

+     -24 

—  .018       o 

.09      .39    .16 

3566 

+  49  48  44.24 

64.8 

—  18.054+.  158 

+     .08 

—  .021—    i 

.02      .10    .05 

3567 

-3357    4.80 

77-2 

-i8.o86+.228 

+     .22 

-  -055       o 

.11      .44    .18 

274  G  Centauri  g 

3568 

+  42  32  50.10 

75-7 

—  18.091  +  .170 

+     -09 

-  .068       o 

.10      .43    .18 

3569 

-68  54  17.43 

86.3 

—  18.029+.  302 

+     .48 

—  .012       o 

.15    .87  .25 

i  G  Circini 

3570 

+31  41  13.10 

83-4 

-  17.975  +  .  181 

+     .11 

+  .038      o 

.12         .47      .17 

3571 

—  17  38  10.02 

74-o 

—  18.044+.  216 

+     .18 

-  -043       ° 

.06        .32      .13 

89  Virginis 

3572 

+  16  1737-74 

72.2 

-17.  960+.  193 

+     -13 

+  .033       o 

.06        .25      .11 

3573 

+  21  45  37-47 

70.9 

-17.977  +  .  191 

+     -13 

+  .003       o 

.IO        .42      .19 

6  Bootis  e 

3574 

+  83  15  15.34 

80.  i 

—  18.020—  .114 

-.047+  I 

.06        .35      .12 

Groomb  2063 

3575 

—  46  24  IO.I2 

77.2 

-17-995  +  -247 

+     .26 

-  -039       o 

.15        .67      .27 

278  G  Centauri 

3576 

—  52  18  56.11 

81.4 

—  i8.ooo+.256 

+     .29 

-  .045       o 

.12         .53      .19 

277  G  Centauri  N  * 

3577 

-32  2953.41 

69-5 

-I7-977  +  .232 

+     .22 

-  -039      o 

.11         .42      .20 

}  280  G  Centauri  k 

3578 

-32  2956.56 

70.9 

-I7-975  +  .232 

+      .22 

-.037       o 

.15         .58      .27 

I  8"  109° 

3579 

-31    7  23.20 

73-8 

-i7.988  +  .23i 

+     .21 

-  .058       o 

.14         .71      .29 

282  G  Centauri  * 

358o 

+35  16    3-86 

80.3 

-  17.937  +  .  181 

+     .10 

—  .022       o 

.09         .53      .18 

358i 

+  35    938-89 

74.0 

-  17.984+.  181 

+     .10 

—  .072      o 

.10      .73    .28 

3582 

+  59    2    3.45 

73-i 

-17.897  +  .  143 

+      .06 

+  .003       o 

.09        .39      .I? 

3583 

-67    932.02 

90.4 

-i7-945  +  -3°3 

+    -45 

—  .052       o 

.17    i.oo    .26 

2  G  Circini 

3584 

+  34  56  21.98 

87.4 

—  17.923  +  .  182 

+     .10 

-  -°37       o 

.12         .6l      .18 

3585 

+  123933.38 

61.7 

—  I7-9O2  +  .2OI 

+    -13 

—  .017       o 

•14      -59    -32 

3586 

—  31  26    1.70 

74.1 

-17.905  +  .  234 

+     .21 

—  .021      o 

.10      .42    .18 

284  G  Centauri  h  * 

3587 

-35  10  14.01 

73-o 

—  17.910+.  238 

+     .22 

-  .036       o 

.16    .67   .30 

286  G  Centauri  y  * 

3588 

+  18  25  31.91 

62.6 

-i7.8S7  +  .i98 

+     -13 

—  .013       o 

.13     .42   .24 

7  Bootis 

3589 

+  65  13    2.05 

73-4 

-17.845  +  .  124 

+      -05 

—  .003       o 

.05         .22      .09 

10  Draconis  * 

359° 

-28    43T-64 

81.3 

-I7-9I4+.232 

+     -21 

-.077-  I 

.11         .49      .l8 

361  G  Hydra 

3591 

+  29    8  24.22 

66.0 

-  17.822  +  .  188 

+     -II 

+  .014—   I 

-14      -67    -33 

3592 

-5140    7.05 

82.3 

—  17.862  +  .  263 

+      .29 

-  .032       o 

.14     .65   .23 

288  G  Centauri 

3593 

-4647  45.79 

74-7 

-17.863  +  .  256 

+     -27 

-  -053       o 

.08    .35  .15 

3594 

-   i    040.13 

75-2 

—  17.829+.  214 

+     .16 

-  .030       o 

.07    .32  .13 

90  Virginis  p 

3595 

-    7  34    0.06 

76.4 

-17.824+.  218 

+     .16 

—  .030-  I 

.09    .49  .19 

Si  788.   8M2'.'778°,slow 

3596 

+  1853  55.90 

-,0.2 

-18.152  +  .  199 

+     -13 

-.367       o 

.02         .13      .06 

3597 

+  54  13  13-03 

57-S 

-17.791  +  .  156 

+     .07 

—  .016      o 

-09         -33      -20 

86  Ursae  Maj 

3598 

+  79  29  2I-31 

72.1 

-17.  767-.  013 

+     .20 

.000—    I 

.09         .41      -l8 

3599 

-63  ii  47-31 

87.2 

-i7-8i7  +  .297 

+    -39 

—  .052       o 

.13         .75      .22 

3600 

+   i  32  22.84 

75-2 

-I7-7I4+.2IS 

+    -i5 

+  .012         0 

.09         .30      .14 

92  Virginis 

3586  W.  H.    8M  14"  185°. 


3587  Howe.     6?5-6M7  i"  87°. 


146 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    1900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3flt 

HI  and  100  A  |i 

Prob.  Errors. 
aEp.      loop,     aio 

M 

h    m        a 

8                      3 

s 

3 

"      &" 

3601 

Br  1826 

5-2 

13  52     0.244 

74-4 

+  2.  7413-  .0036 

+   .009 

+  .0023       o 

.08         .34       .15 

3602 

<t>  Centauri 

4-0 

52  H-44S 

78-5 

+  3.6281  +  .0389 

+   .014 

—  .0024       o 

.11         .48       .19 

3603 

«  Centauri 

4.0 

52  30.055 

83.2 

+  3.6844+  .0430 

+   .016 

—  .003  1       o 

.10        .51      .17 

3604 

Br  1825 

5-3 

52  54.396 

82.1 

+  3.3566+.  0214 

+   .008 

—  .0*36       o 

.07           .36        .12 

3605 

Pi  264 

6-3 

53  5°-262 

72.8 

+  2.8960+.  ooi  i 

+   .007 

—  .0040      o 

.12           .63         .26 

3606 

Br  1828 

5-8 

53  57-8o2 

76-4 

+  2.8I2I—  .OOI4 

+   .007 

—  .0003       o 

.10        .32      .15 

3607 

Br  1827 

6.0 

54  24.019 

75-3 

+  3-349°+-02i4 

+   .007 

—  .0152       o 

.11            .45         .19 

3608 

Pi  269 

6.6 

54  38-331 

70.4 

+  3.  1052  +  .  0088 

+   .006 

—  .0014       o 

.14           .52         .25 

3609 

Pi  270 

7.0 

54  48.367 

72-9 

+  3.I57I  +  .OIH 

+   .006 

—  .0017       o 

.12           .48        .22 

3610 

LS782 

4-4 

55  29-079 

79-7 

+  3.7  191  +  .0444 

+   .016 

—  .0012      o 

.16           .80        .29 

3611 

6  Apodis 

Var. 

55  34-48i 

80.2 

+  5.6981  +  .2975 

+   -416 

—  .0261—   7 

.08           .64        .21 

3612 

T  Virginis 

4-3 

56  33-401 

74-2 

+  3.  0506  +.0065 

+  .006 

+  .0013      o 

.03           .18        .07 

3613 

Br  1830 

6-3 

56  38.421 

84-4 

+  2.7220—  .0031 

+  .009 

—  .0060      o 

.04           .27         .08 

3614 

Pi  274 

5-9 

56  41-438 

79-5 

+  3.4004+.  0234 

+   .008 

—  .0031       o 

.11            .54        .20 

3615 

ft  Centauri 

o-S 

56  45.821 

71.1 

+  4.1929+.  0848 

+   .047 

-  -0035      o 

.05           .24         .11 

3616 

Pi  286 

6.7 

59    2-073 

74-9 

+  3.24I2  +  .OI48 

+   .006 

—  .0026      o 

.IO           .48         .20 

36i7 

Pi  287 

6.9 

v69    3-673 

73-2 

+  3.I72I  +  .OH7 

+   .006 

—  .0027       o 

.12            .50         .22 

3618 

L5797 

6-5 

59    4-633 

88.8 

+  3-9835  +  -o644 

+   .029 

-.0085-  I 

.15           .75         .22 

3619 

Pi  296 

6.4 

59  !6-435 

85.2 

+  2.2353  -.0070 

+    .Oil 

—  .0030       o 

.08           .44        .13 

3620 

Pi  306 

6.7 

59  38-329 

76.7 

+  i.3i7i  +  .oi79 

-    .017 

—  .0046+   I 

.09           .45         .18 

3621 

X  Centauri 

4.6 

13  59  56-368 

85-4 

+  3^453  +  .03  78 

+    .OI2 

-^.0016      o 

.IO           .50        .16 

3622 

tr  Hydrae 

34 

14    o  40.512 

80.9 

+  3.4059+.  0230 

+    .007 

+  .0031+  I 

.06           .30        .11 

3623 

6  Centauri 

2.O 

o  47-745 

79-3 

+3-5I50+-03l8 

+    .009 

-  .0436      o 

.07           .32         .12 

3624 

Br  1833 

6.9 

o  59.962 

74-9 

+  3.I7I4+.OH5 

+   .006 

—  .0005      o 

•o?        -33      -13 

3625 

Br  1834 

5-7 

i  25.410 

74-3 

+  3.i676+.oii7 

+    .006 

—  .0097  '  o 

.07            .30         .12 

3626 

o  Draconis 

3-5 

i  40.894 

73-i 

+  1.6227  +  .  0050 

.OOO 

-.0081+  _._!_ 

•03     -13    -05 

3627 

LS82S 

6.9 

3    0.820 

86.3 

+  3.9ii7  +  .o563 

+   .022 

—  .0055      o 

.20            .82         .28 

3628 

1,5827 

4.8 

3  I5-323 

86.8 

+  3-9624+.o6ii 

+    .025 

—  .0172—    I 

.20        .86      .28 

3629 

Br  1835 

6.9 

3  40.830 

72.8 

+  3.I9I4+.OI23 

+    .006 

—  .0003      o 

.10        .39      .18 

3630 

Pi  316 

5-6 

3  55-886 

67-3 

+  2.4007—  .0062 

+    .Oil 

+  .0004      o 

.09         .56       .26 

3631 

Br  1838 

5-6 

4  33.200 

60.4 

+  2.2456—  .0061 

+  .010 

-  .0052      o 

.10        .44      .24 

3632 

Pi  317 

5-4 

5  22.715 

75-5 

+  3.2705  +  .oi57 

+  .006 

+  .OOII          0 

.06         .36       .14 

3633 

77  Apodis 

S-o 

5  39-336 

80.7 

+  7-2354+-575I 

+  1.128 

—  .0170+   I 

.11      .81     .26 

3634 

Groomb  2082 

6.7 

5  40-293 

85-4 

+  1.8597—  .0010 

+  .006 

—  .OI5I+     2 

.09      .54     .16 

3635 

Br  1839 

4.9 

5  50-304 

85-5 

+  2.7370-  .0017 

+  .008 

—  .0017       o 

.04      .32     .09 

3636 

Pi  27 

6-5 

6    8.999 

77-8 

+0.4370+  .0770 

.119 

—  .0142+   4 

.09        .48      .18 

3637 

L  5840 

5-6 

6  32.442 

85-2 

+  4.oo75  +  .o6i9 

+  .024 

—  .0017       o 

.18      .81     .27 

3638 

Br  1837 

5-4 

7    2.155 

74-9 

+  34263  +  .0233 

+  .007 

—  .0012       o 

.11        .42      .18 

3639 

Pi  12 

5-i 

7  12.040 

67.4 

+  3-0335  +  -0065 

+  .006 

-t  .0034      o 

.09            .42          .20 

3640 

Br  1841 

7-4 

7  13.621 

65.0 

+  3-I92I  +  .OI22 

+  .005 

+  .0028      o 

.14     .52    .27 

3641 

Br  1840 

6-5 

7  30-076 

79-o 

+  3.4190+.  0228 

+  .006 

+..0003       o 

.11            .57          .21 

3642 

K  Virginis 

4.2 

7  33-6i3 

72-3 

+  3-I949  +  .OI23 

+  .005 

+  .0005      o 

.03            .18         .08 

3643 

LsSso 

5-3 

7  59.060 

86.8 

+4.1430+.  0725 

+  .031 

-•  .0040      o 

.l8            .87          .27 

3644 

Paris  17453 

6.0 

831.271 

95-6 

+  3.  0904  +.0080 

+  .006 

H».oi34       o 

.12           .72         .16 

3645 

L  5860 

6.0 

8  31.978 

88.2 

+  3.68S6+.0387 

+  .on 

-'.0128—    I 

.18         1.29         .33 

3646 

Brisb  4811 

6.0 

8  44-438 

89-4 

+  4.  6780+.  1240 

+  .079 

—  .0024      o 

.15         I.O4        .26 

3647 

Br  1843 

6.6 

9    8.736 

69-3 

+  3.I2O3  +  .OIOI 

+  .006 

—  .0206      o 

.09           .36        .17 

3648 

L  5869 

6.2 

9  13.727 

76.7 

+  3.4627  +  .0250 

+  .007 

—  .0026      o 

.10        .66      .24 

3649 

Br  1859 

5-i 

9  x3-996 

78.1 

—  0.3021  +  .  1510 

-  .288 

—  .0089+   I 

.04        .20      .07 

3650 

Br  1844 

5-7 

14    9  16.586 

71.1 

+  2.  8839  +.0026 

+  .006 

—  .0178       o 

.08        .27      .13 

3627. 


fols. 


45' 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


'47 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

^'andiooAp' 

Prob.  Errors. 
SEp.  loop'  Sio 

Remarks. 

3601 

0             1                 It 

+  27  5856.27 

71.9 

//                   // 

-17.757  +  .  195 

It 

+    .11 

// 

-.057       o 

//         //       // 
•08      .33    .15 

9  Bootis 

3602 

-41  36  44.11 

79-9 

-17.  712  +  .  256 

+    .24 

—  .020      o 

.10      .47    .17 

3603 

-44  18  55.85 

80.6 

—  17.  712  +  .  260 

+    -25 

-.032       o 

.09     .40   .15 

297  G  Centauri  v1 

3604 

-24  29    2.79 

84.2 

-17.  704+.  238 

+      .20 

—  .041       o 

.07     .40  .13 

47  Hydrae 

3605 

+  15    8'i4-99 

71.7 

-17.689  +  .  208 

+     -13 

-  .065      o 

.09         .49      .21 

3606 

+  22  II      2.50 

72-5 

—  1  7.  670+.  203 

+     .12 

—  .051       o 

.09         .30      .14 

10  Bootis 

3607 

-2431  20.41 

77-8 

—  17.  712  +  .  240 

+      .20 

—  .III—    I 

.11         .43      .18 

48  Hydra 

3608 

-   3    3  45-73 

76.6 

—  17.660+.  224 

+     .16 

—  .069      o 

.12         .50      .21 

3609 

-   7  40  30.66 

74-4 

-17.  643  +  .228 

+      -17 

-  -059      o 

.11         .44      .19 

3610 

-45    7    8.82 

72.9 

-17.  594+.  269 

+      .26 

-  -039      o 

.12         .54      .23 

303  G  Centauri  v2 

3611 

-761850.77 

80.7 

-17.591  +  .407 

+     .84 

—  .040—     2 

.07         .63      .20 

5M5  to  6»s 

3612 

+    21  42.IO 

75-4 

-I7-535  +  -224 

+     -IS 

—  .025       o 

.03        .21      .08 

3613 

+  27  52  10.04 

79.6 

—  17.  503  +  .  200 

+     .10 

+  .003       o 

.05        .24     .09 

ii  Bootis 

3614 

—  26  56  48.92 

79-2 

-I7-52I  +  .249 

+      .20 

—  .017       o 

.11         .51      .19 

367  G  Hydrae 

3615 

-5953  26.09 

73-8 

-i7-533  +  -3°5 

+    -37 

-  .032       o 

.05         .25      .11 

;6i6 

—  14  29  28.09 

77.1 

-17.432  +  .  242 

+    .18 

—  .029      o 

.10      .49    .19 

3617 

-   8  46  38.28 

76.4 

-17.409+.  237 

+    -i7 

—  .007       o 

.IO         .46      .l8 

3618 

-54  ii  22.35 

79-3 

-17.448  +  .  295 

+    -3i 

-.047-  I 

•13      -S3    -2i 

309  G  Centauri 

3619 

+  51  27    9.33 

76.8 

—  17.407  +  .169 

+    .07 

—  .014      o 

.08     .32   .13 

3620 

+  69    9  36.23 

68.2 

-17.375  +  .  103 

+    -05 

+  .OO2          0 

.08    .37  .17 

3621 

—  40  42      2.  1  1 

79-4 

-17.398  +  .  273 

+    .24 

-  -034      o 

.09    .37  .14 

3622 

—  26   12      2.46 

82.7 

-I7-49I  +  .257 

+    .20 

—  .160      o 

.06     .33   .11 

3623 

-35  52  40-98 

74-8 

-17.854+.  262 

+    -23 

-.528-   3 

.07    .32  .13 

3624 

-  8  24  52.30 

73-° 

—  17.308  +  .  240 

+    -i7 

+  .009       o 

•07      -33    -14 

94  Virginis 

3625 

-  8  50  11.34 

72-7 

—  17.294+.  240 

+    -i7 

+  .004-  I 

.06      .26    .11 

95  Virginis 

3626 

+  6451  13.52 

70.1 

—  17.  272  +  .  126 

+    .04 

+  .015-  I 

.03      .13    .06 

3627 

-51    147.81 

80.7 

-I7-253  +  -298 

+    -3° 

-  .025       o 

•15      -60    .23 

320  G  Centauri* 

3628 

-52  5744-75 

81.0 

-I7.325  +  .302 

+    -3i 

-.108-  I 

•15      -61    -23 

321  G  Centauri 

3629 

-   95i  39-i8 

71.9 

—  17.  182  +  .  246 

+    -i7 

+  .016      o 

•09      -33    -IS 

96  Virginis 

3630 

+44  19  47-93 

65.6 

-17.  224+.  187 

+    .08 

-.037       o 

.08      .42    .20 

3631 

+  49  55  49.68 

54-8 

—  17.112  +  .  176 

+    .07 

+  .046      o 

.10      .32    .20 

13  Bootis 

3632 

-15  4947-14 

73-9 

-I7-I43  +  .255 

+    .18 

—  .022      o 

.06      .36    .14 

3633 

—  80  32  19.92 

So.  i 

-I7.i86  +  -5s6 

+  1.51 

-.078-  I 

.08        .69     .22 

3634 

+  59  48  40.76 

83-3 

-17.  134+.  148 

+    -05 

—  .026—    I 

.08        .42      .14 

3635 

+  25  33  54.84 

82.0 

-17.  172  +  .  215 

+    .11 

—  .072      o 

.04        .30     .IO 

12  Bootis  d 

3636 

+  75    4    2.46 

70.4 

-17.078  +  .  039 

+     .10 

+.008-  I 

•07      -34    -IS 

Groomb  2085.     3  Ursae  Min 

3637 

-53  n  44-76 

78.9 

-I7-IQ5  +  -3I4 

+    -3i 

-  -037       o 

.14    .58  .23 

324  G  Centauri 

3638 

—  26  47  26.42 

78.8 

—  17.100+.  270 

+     .20 

-•°55       o 

.10      .40    .16 

50  Hydrae 

3639 

+    2  52  48.25 

69-3 

—  17.069+.  240 

+     .14 

-.031       o 

.10      .40    .19 

3640 

-   9  25  47-91 

66.7 

-17.065  +  .  252 

+     -17 

—  .029      o 

.11         .42      .21 

97  Virginis 

3641 

-26    833.08 

80.3 

—  17-025  +  .270 

+      .20 

—  .001      o 

.11         .64      .22 

371  G  Hydrae 

3642 

-   9  48  30.13 

73-8 

-16.891  +  .253 

+      -I? 

+  .130      o 

.03         .13      .06 

3643 

-5637    4.14 

78.6 

-I7.0I5  +  -327 

+     -34 

—  .014      o 

-14      -57    -23 

328  G  Centauri 

3644 

—     0  22   24.76 

97.6 

—  17.  109  +  .  248 

+  -15 

--I33+     1 

.10      .94    -15 

3645 

—  41    22    IO.6l 

87.7 

—  17.020+.  292 

+   -25 

-.044-  I 

.15      1.20      .31 

330  G  Centauri 

3646 

—  66    7  17.67 

86.2 

-I6.975  +  .370 

+   .48 

—  .009      o 

.12         .73      .21 

8  G  Circini 

3647 

-   5  28  58.25 

70.1 

-16.868+.  248 

+   .16 

+  .079-     2 

-08         .33      .15 

3648 

-2848  53.39 

75-6 

—  16.982  +  .  277 

+     .21 

—  .038      o 

.12         .71      .27 

372  G  Hydrae 

3649 

+  78    i    2.45 

80.3 

—  16.917—  .017 

+      .20 

+  .026—    I 

.05        .24     .08 

4  Ursae  Min 

3650 

+  13  25  41.65 

7i-5 

-17.003  +  .  231 

+     -13 

—  .062—   I 

.O?        .28      .13 

14  Bootis 

148 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   1 900 


No. 

Designation. 

Mag. 

R.  A.  1000 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

p.  and  100  A  p. 

Prob.  Errors. 
aEp.      IOO|1     aio 

M 

h    m       s 

8                     S 

S 

s 

//              //           // 

3651 

R  Centauri 

Var. 

14    9  21.794 

93-5 

+  4.28I3  +  .0836 

+  .039 

-  .0023       o 

.20         1.34         .29 

3652 

K1  Bootis 

6.2 

9  52-849 

76.6 

+  2.I5I7—  .OO48 

+  .OIO 

+  .0062       o 

.16            .82         .32 

3653 

Pi   22 

5-7 

953-351 

73-3 

+  3.2990+.  Ol69 

+  .005 

—  .0028      o 

.08            .45          .18 

3654 

K2  Bootis 

4.9 

9  54-031 

74-7 

+  2.1524—  .OO49 

+  .OIO 

+  .0071—   I 

.09            .38         .16 

3655 

Br  1845 

5-5 

9  S7-030 

65.8 

+  2.9367  +  .0036 

+  .006 

-.0017+  I 

.12           .51        .26 

3656 

Groomb  2091 

5-5 

10  12.414 

64.0 

+  I.IOI5  +  .O284 

-.030 

-.0056+  3 

.11           .52        .26 

3657 

c  Apodis 

5-3 

10  16.470 

75-2 

+  7.0037  +  .4972 

+  .852 

—  .0068       o 

.14        .68      .27 

3658 

Groomb  2089 

6-5 

10  21.636 

66.7 

+  2.4241—  .0049 

+  .009 

—  .0004+    i 

.14        .66      .32 

3659 

LS872 

6.9 

10  23.115 

79-7 

+  3-5375  +  -0287 

+  .007 

+  ;ooi6      o 

.16      i  .00      .35 

3660 

t  Virginis 

4.1 

10  46.174 

79-4 

+  3.i4O9  +  .oio6 

+  .005 

—  .OOI2+     2 

.04        .20      .07 

3661 

8  Octantis 

4.1 

10  51.70- 

70.8 

+  9.087-  +  1.043- 

-.052-  -32 

.06        .36      .15 

3662 

a  Bootis 

o.o 

II    6.023 

66.3 

+  2.7352  +  .0025 

+  .006 

—  .0781  +  11 

.02        .11      .05 

3663 

Br  1848 

6.2 

II  22.060 

73-6 

+  2.  8200+.  O006 

+  .006 

+  .0026      o 

.12           .30        .16 

3664 

Ls883 

6.8 

12   28.630 

84-4 

+  3-535  7  +  -0286 

+  .007 

—  .0065      o 

.12           .70        .22 

3665 

L5«75 

5-4 

12  31.233 

92.0 

+  4-3570+  -0898 

+  •043 

—  .0228—     2 

.20        I.I7         .29 

3666 

A.  Bootis 

4.2 

12  34-949 

77-6 

+  2.2831—  .0049 

+  .009 

—  .0179      o 

.04           .18         .07 

3667 

t  Bootis 

4.8 

12  37.486 

75-0 

+  2.1268—  .0042 

+  .009 

-.0157+  I 

.04           .21         .09 

3668 

t  Lupi 

3-8 

13  0.003 

83-4 

+  3.8196+.  0454 

+  .013 

—  .0009       o 

.12           .63         .21 

3669 

Capes,  2538 

6.0 

13  6.369 

90.2 

+  3-3I02  +  .OI73 

+  .005 

—  .0040      o 

.10        .68      .17 

3670 

v  Centauri 

4-4 

13  20.250 

88.0 

+  4.I552  +  .0703 

+  .027 

—  .0029      o 

.14           .84         .23 

3671 

L  5892 

6.1 

13  20.279 

82.8 

+  3-39I7  +  -°2i6 

+  .006 

•^0288-   3 

.14         1  .06        .32 

3672 

X  Virginis 

4.6 

13  41-845- 

70-7 

+  3-2396+.OI4I 

+  .005 

—  .0015      o 

.04            .22          .IO 

3673 

Pi  45 

S-o 

13  46.138 

73-2 

+  2.5365-.  0037 

+  .008 

-  .0013      o 

.11        .66      .27 

3674 

Br  1856 

6.4 

13  47-834 

75-o 

+  2.1348—  .0041 

+  .009 

—  .0024      o 

.12            .36         .17 

3675 

Dpt  1608  m 

8.8 

13  51-059 

90.0 

+  3.oi3i  +  .oo6i 

+  .005 

—  .0031       o 

.11            .56         .16 

3676 

Stgoeo  1187 

5-8 

13  52-715 

87.8 

+  3.7472  +  .  0406 

+  .OII 

—  .0028      o 

.l8         I.4I          .36 

3677 

1,5891 

5-o 

14  19.517 

83.6 

+  3.8056+.  0441 

+  .OI2 

+,  .001  1  +   I 

.18            .99         .32 

3678 

v  Virginis 

5-2 

14  23.255 

76.1 

+  3.0876+  .0087 

+.005 

—  .0080       o 

.10        .42      .17 

3679 

Br  1853 

5-5 

14  25.889 

76.4 

+  2.  9026+.  OO27 

+  .006 

+  .0074       o 

.10        .34      .15 

3680 

<l>  Centauri 

4.2 

14  28.389 

84.8 

+  3.6327  +  .0336 

+  .008 

-  .0059      o 

.10        .51      .16 

3681 

Br  1855 

5-i 

15  1-247 

73-2 

+  2.8384+.  00l6 

+  .006 

—  .0102      o 

.08       .28     .13 

3682 

L5893 

5-2 

15  27.213 

88.0 

+  4.2579  +  .0777 

+  .031 

—  .0063—    I 

.18        .92      .27 

3683 

Brisb  4865 

7.0 

15  27.631 

94-5 

+  4.2604+.  0777 

+  .031 

—  .0040—    I 

.21          I.l8         .28 

3684 

Groomb  2100 

6-3 

15  41-391 

66.3 

+  2.4647—  .0041 

+  .008 

+  .0018      o 

.12           .63         .30 

3685 

L59°7 

5-9 

16  19.979 

83-7 

+  3.5804+.  0301 

+  .007 

-  .0034      o 

.14        .86      .27 

3686 

L  5890 

5-8 

16  48.550 

82.6 

+  4.9054+.  1396 

+.089 

—  .0024       o 

.13        .70      .23 

3687 

Br  1858 

7-i 

16  49.267 

71.1 

+  3.0879  +  .0086 

+.005 

-  .0045       o 

.10        .40      .18 

3688 

Ls9n 

4.6 

16  52-439 

87-3 

+  3.6797  +  .0356 

+  .008 

-~  .0024      o 

.10        .54      .16 

3689 

Br  1857 

5-o 

i?  19-934 

75-i 

+  3.4466+.  0237 

+.006 

—  .0147       o 

.10        .42      .18 

3690 

Groomb  2105 

7-1 

17  56.720 

83-7 

+  i.i7i8  +  .0234 

—  .022 

—  .0048+   I 

.08        .50      .15 

3691 

Br  1860 

6.6 

18    2.687 

76.4 

+  3-222I  +  .OI33 

+  .004 

—  .0010      o 

•06      .33     .13 

3692 

Pi  69 

5-2 

18  27.649 

59-5 

+  2.9488  +  .0045 

+  .005 

-r-  .0046       o 

.11        .52      .29 

3693 

L  592*1 

7-5 

18  30-545 

94-3 

+  3-7I28+.0373 

+  .008 

—  .0036      o 

.15      1.  20      .24 

3694 

Pi  71 

8.0 

19    1.864 

85.8 

+  2.9849+.  0054 

+.005 

-r-  .0036           O 

.11      .52     .17 

3695 

Pi  68 

5-5 

19    6.151 

78.4 

+  3-4H9+.02I4 

+  .005 

-  -0055      o 

.09        .46      .17 

3696 

1,5908 

5-9 

J9    7-754 

90.1 

+  4.7301  +  .  1186 

+  .064 

—  .0051       o 

.20      1.14      .30 

3697 

Pi  73 

5-2 

19  12.721 

67.9 

+  2.9830+.  0054 

+  .005 

-  .0055       o 

.11        .57      .26 

3698 

Br  1861 

6.8 

19  18.287 

73-8 

+  3-2I90+.OI32 

+  .004 

—  .0047      o 

.12            .51          .22 

3699 

T*  Lupi 

4-7 

19  42.978 

80.9 

+  3  -8305  +  .0440 

+  .OII 

—  .0009      o 

.IO            .51          .l8 

3700 

T2  Lupi 

4-4 

14  19  44.840 

86.0 

+  3.8361  +  .0442 

+  .OII 

+  .0003      o 

.10        .54      .16 

3671  jS  1246.     13"  3"  189°. 


3676  h  4672.    IOM  4"  304°. 


CATALOGUE  OF  6 1 88  STARS  FOR  1900 


149 


Ho. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

p'and  100  A  ji' 

Prob.  Errors. 
SEp.  i  oo(i'  Sio 

Remarks. 

3651 

0           /               // 

-592651.78 

93-4 

//                      ft 

-I6.953  +  .34I 

// 

+    .38 

// 
—  .016      o 

//         //       // 
.18    1.16    .26 

6*"tOIOM.     1  2M  28"  2l8° 

3652 

+52.15  19.67 

68.1 

-16.945  +  .  176 

+    .06 

-.032       o 

.13      .63    .29 

5  1821.    See  No.  3654 

3653 

-17  44    3.39 

74-4 

—  16.930+.  265 

+    .18 

—  .018      o 

.08      .46    .18 

3654 

+  52  15  26.97 

63.0 

-16.927  +  .  176 

+    .06 

-.015+  I 

.07      .26    .14 

S  1821.  6*2  13"  237°,  v.  slow 

3655 

+  10  34  16.80 

63.6 

—  17.080+.  237 

+    -13 

—  .170      o 

.12        .47      .25 

15  Bootis 

3656 

+  6954    6.37 

58-9 

—  i  6.960  +.093 

+    .05 

—  .062      o 

.08        .40     .22 

3657 

-  79  38  50.48 

77-9 

-I6.925  +  .556 

+  i-37 

-.031       o 

.12        .63      .24 

3658 

+  41  59  16.78 

62.2 

—  17.012  +  .  198 

+    .08 

—  .122          O 

.12         .50      .27 

3659 

-32  4634-83 

72.7 

-16.903  +  .  285 

+     .22 

—  .014      o 

.16         .87      .36 

333  G  Centauri 

3660 

-   5  31  24-44 

74-7 

-17.  298  +  .  254 

+      .16 

-.427      o 

.04         .22      .09 

3661 

-83  12  35.12 

72-3 

-i6.88o+.7i9 

-.013-   4 

.06         .34      .14 

3662 

+  19  42  10.43 

64.8 

-i8.8s8  +  .2i7 

+      -II 

—  2.003—6 

.02         .IO      .05 

Arcturus 

3663 

+  19  22  38.22 

74.0 

-16.884+.  230 

+     -II 

—  .041      o 

.10      .35    .16 

3664 

-32  45  25.25 

80.7 

-16.830+.  288 

+     .22 

—  .040      o 

.14         -77      -27 

335  G  Centauri 

3665 

-6048  33.05 

86.8 

-i6.893  +  .352 

+      40 

-.105-     2 

.l6         .82      .25 

334  G  Centauri 

3666 

+  46  32  50.57 

73-6 

-  16.634+.  188 

+      .07 

+  .151-     I 

.04         .I?      .07 

3667 

+  51  49  42.20 

69.8 

-16.697  +  .  175 

+      .06 

+  .086-     I 

.04         .18      .08 

23124-    7*5  38"  33° 

3668 

-45  3547-72 

78.0 

-i6.773  +  -3i2 

+      .27 

-  .008       o 

.09         .41      .l6 

3669 

—  18  15  10.98 

87-3 

—  i6.8oi  +  .272 

+     .18 

—  .041      o 

.IO         .71      .19 

3670 

-55  55  32-9° 

83.0 

-i6.77o+-340 

+    -34 

—  .021       o 

.11         .56      .19 

3671 

-25  21  49.85 

79-9 

—  16.380+.  276 

+    .20 

+  .369-     2 

.14    1.16    .38 

374  G  Hydrae  * 

3672 

-12  54  39.13 

67.6 

—  16.708  +  .267 

+    .17 

+  .023       o 

.04      .20    .10 

3673 

+  35  58  14-33 

68.8 

—  16.732  +  .  211 

+    -09 

—  .004      o 

.10     .52    .24 

(Bootis  4) 

3674 

+  51  46  10.32 

70.4 

-i6.738+.i78 

+    .06 

—  .Oil          O 

•ii      -33    -17 

3675 

+  4  21  15.33 

82.8 

-16.779  +  .  249 

+    -14 

-  -°55      o 

.10      .40    .15 

2  1832.  g^s-9^5  °'/7  132° 

3676 

-4235  57-32 

87.6 

-16.778+.  308 

+    .26 

-•055      o 

•14    i-38    -34 

L  (5887)* 

3677 

-4443  31.59 

76.0 

-I6.79I  +  .3I4 

+    -27 

—  .090      o 

.13      .64    .25 

3  G  Lupi 

3678 

—    i  48  12.03 

73-4 

-I6.777  +  .256 

+    -IS 

-.079-  I 

•08      .33    .15 

3679 

+  13  27  56.02 

72.4 

-16.734+.  242 

+     .12 

-.038+  I 

.10      .31    .15 

18  Bootis 

3680 

-37  25  31-55 

78-5 

—  16.710+.  300 

+     -24 

—  .016      o 

.11      .46    .18 

3681 

+  16  45  53.44 

.71-8 

—  16.617  +  .  236 

+     .12 

+  .050-  I 

.06        .27      .12 

20  Bootis 

3682 

—  58    o    7.60 

83.0 

-16.640+.  352 

+    -37 

+  .006      o 

.14        .65      .22 

1  340  G  Centauri 

3683 

-58    o  16.88 

9i-3 

-16.638  +  .  353 

+    -37 

+  .008       o 

.17        .92      .24 

[Dunlop.    g'.'s  161° 

3684 

+  39  15  12.37 

64.2 

-16.656  +  .  208 

+    .08 

—  .021          0 

.11         .52      .26 

3685 

-34  1947.18 

73-6 

—  i6.6oo+.299 

+    .23 

+  .003       o 

.14        .63      .27 

341  G  Centauri 

3686 

-67  44  25.56 

83-7 

—  16.602  +  .409 

+    -S3 

—  .022       o 

.12         ,6l      .20 

10  G  Circini 

3687 

-   i  31  51.72 

71.4 

—  16.592  +  .260 

+    .14 

-.013      o 

.09         .35      .16 

103  Virginis  (u8) 

3688 

-39    3  18.27 

81.2 

—  16.617  +  .308 

+    -24 

—  .040      o 

.10      .44    .16 

342  G  Centauri  a 

3689 

—  27  17  42.10 

78-5 

—  16.677  +  .  289 

+      .20 

-.123-  I 

.IO         .40      .l6 

51  Hydra  (*) 

3690 

+  68  14  23.35 

79-2 

—  16.520+.  103 

+     .05 

+  .004      o 

.O?         .32      .12 

S  1840.   9"  27"  223° 

3691 

—  ii  15  26.52 

72-5 

-16.583  +  .  273 

+     .16 

—  .064      o 

.06         .30      .13 

2  Librae 

3692 

+  8  54    5-35 

56-4 

-16.523  +  .  251 

+     -13 

—  .025       o 

.10      .43    .25 

3  1835"  6?S  6'/S  19°°* 

3693 

-40  18    3.04 

93-o 

-i6.538  +  .3i4 

+     -25 

—  .042       o 

.12         .97      .20 

344  G  Centauri 

3694 

+  6  1635.14 

88.4 

-I6.457  +  .255 

+     -14 

+  .013      o 

•12         -S3      'I? 

3695 

—  24  21    9.08 

77-8 

—  16.497  +  .290 

+      .20 

-.031       o 

.08         .36      .14 

3  G  Librae 

3696 

-65   22   10.15 

87.2 

—  16.490+.  400 

+    -49 

—  .025       o 

-15      -9°    -25 

13  G  Circini 

3697 

+  6  16  25.11 

62.1 

-16.461  +  .  255 

+    -14 

.000      o 

.12      .58    .30 

3698 

-II    12  56.77 

66.1 

-16.499+.  274 

+    .16 

-  -043      o 

.10      .33    .18 

51837.  81*71"  302°,  slow 

3699 

—  4446    8.78 

78.2 

-i6.465  +  -327 

+    .27 

—  .029      o 

.09      .40    .15 

LS928 

3700 

-4455  38.08 

82.8 

-i6-4S4+-327 

+    -27 

—  .020      o 

.09      .42    .14 

L  5927 

3692.     The  comp.  is  a  rapid  binary,  <  o'.'s. 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H-  and  100  A  p. 

Prob.  Errors. 
a  Ep.      IOO|i      a  10 

M 

h    m         s 

s               s 

S 

//               it           n 

3701 

Pi  78 

6.8 

14  20     1.333 

83-3 

+3.  4504  +.0230 

+  .005 

—  .0025       o 

.14           .80        .25 

3702 

L5934 

6.0 

20  45.302 

87-9 

+3-8477  +-0454 

+  .OI2 

-.0133       o 

.18        I.  O2        .29 

3703 

Groomb  2109 

6-5 

21  24.319 

60.6 

+  2.  4495  -.0034 

+  .008 

—  .OOOI          0 

•J3        -75      -39 

3704 

6  Bootis 

4.2 

21  47-559 

75-8 

+  2.0430—  .001  1 

+  .008 

—  .0260+   7 

.03        .15      .06 

3705 

Br  1864 

5-6 

21  48.268 

78-4 

+  2.790O+.OOIO 

+  .OO6 

—  .0052       o 

.05        .30      .11 

3706 

Br  1863 

6.4 

22      9.372 

65-5 

+  3.  1449+.  0106 

+  .005 

—  .0046      o 

.12        .44      .23 

3707 

Br  1862 

5-i 

22  18.905 

75-3 

+  3.5022  +  .025I 

+  .O06 

—  .0019       o 

.09        .40      .16 

3708 

Pi  85 

7.0 

22  19.880 

7S--9 

+  3.2447  +  .oi4i 

+  .004 

-  .0059       o 

.15        .72      .29 

3709 

Brisb  4918 

5-9 

22  55-245 

82.6 

+  4-9392  +  -i358 

+  .077 

+  .0039+  3 

.16        .78      .27 

37io 

<f>  Virginis 

S-o 

23      2.948 

78.2 

+  3.0877  +  .0088 

+  .005 

—  .0089       o 

.04        .24      .09 

37" 

Br  1866 

5-9 

23  25.173 

72.1 

+  3-I593  +  -OI°9 

+  .005 

—  .0016       o 

.09        .40      .18 

3712 

L59SO 

5-6 

23  4I-I71 

83-6 

+  3-97I9  +  .0520 

+  .013 

—  .0047       o 

.18        .75      .27 

3713 

LS9Si 

5-8 

23  41.482 

84.7 

+  3.8489  +  .0440 

+  .010 

—  .0041       o 

.16        .75      .25 

3714 

Pi  95 

7.2 

24  47-75° 

72-7 

+  3-ii8i  +  .oo97 

+  .005 

—  .0067       o 

.16        .64      .29 

3715 

Br  1868 

S-8 

25      9.090 

66.9 

+  2.0879—  .0018 

+  .007 

-.0320+   4 

.07            .24         .12 

37i6 

<r  Lupi 

4.6 

25  52.649 

83.2 

+4.0141  +  .0539 

+  .013 

—  .0054       o 

.12            .52         .l8 

3717 

P  Bootis 

3-8 

27  31.221 

77-4 

+  2.5862—  .0015 

+  .007 

—  .0078       o 

.03             .l8         .06 

37i8 

Br  1873 

4-5 

27  43.900 

69.9 

-0.1791  +  .  1173 

-.182 

+  .0034-     2 

.04            .21          .10 

3719 

Pulkji  2133 

6.2 

27  54.661 

83-4 

+  2.6551—  .0006 

+  .006 

-  -0055       o 

.11             .48         .17 

3720 

LS974 

7-3 

27  58.265 

88.8 

+4.2660+.  0708 

+  .02  1 

—  .0041       o 

.16        .88      .25 

3721 

Br  1870 

6.1 

•  27  59-825 

67.9 

+  2.  7265+.  0005 

+  .006 

—  .0094      o 

.08            .32         .15 

3722 

y  Bootis 

3-o 

28     3.091 

72.6 

+  2.4172—  .0028 

+  .007 

-  .0095       o 

.04            .20         .08 

3723 

Pi  126 

6.4 

28  59.898 

85-4 

+  1.6264  +.OO62 

.000 

—  .0064+   I 

.06            .42         .12 

3724 

i}  Centauri 

2.4 

29    9-335 

74-2 

+  3.  79I2+.  0390 

+  .007 

—  .0030      o 

.10        .38      .17 

3725 

LS994 

6-3 

29  11.918 

<92.8 

+  3-7772  +  -o38i 

+  .OIO 

—  .OOI  I          O 

.11            ,80         .18 

3726 

Pi  116 

6.8 

29  13.030 

78.6 

+  3-3707  +  -0183 

+  .004 

+  .0035       o 

.09            .54         .19 

3727 

LS99S 

5-5 

29  46.204 

85-9 

+  3-903  7  +  -0454 

+  .OIO 

—  .0044       o 

.18            .84         .27 

3728 

Pi  131 

7.6 

-30  13.174 

74-5 

+  1.9544—  .0006 

+  .005 

-  .0234       o 

.11             .45         .19 

3729 

a-  Bootis 

4.6 

3°  I9-591 

65-7 

+  2.6132—  .0014 

+  .007 

+  .0149—   I 

.07             .26         .13 

373° 

Groomb  2127 

6.9 

30  26.500 

73-6 

+  2.1876—  .0023 

+  .007 

-.0032       o 

.13            .62          .26 

3731 

L  6001 

5-5 

30  47-056 

87-5 

+  3.  908  7  +  .045  2 

+  .009 

—  .0010      o 

.l8            .84         .26 

3732 

Po  Lupi 

4.1 

3i    9-477 

80.2 

+  4.0105  +  .  0515 

+  .OII 

—  .0036      o 

.14            .70         .25 

3733 

Abo  333 

6.1 

31    9.852 

76.0 

+  2.0983—  .0018 

+.006 

—  .0048       o 

.08            .40         .l6 

3734 

Pi  127 

6-5 

31  40.521 

71.4 

+  3.i857  +  .oi3i 

+  .003 

-.0594-     2 

•08            .33         .15 

3735 

a  Centauri  e.g. 

32  48.208 

70.0 

+  4.04I2  +  .073I 

+  .029 

-.4874-72 

3736 

Pi  140 

6.2 

33  35-005 

80.0 

+  2.  7888  +  .0019 

+  .005 

—  .0020      o 

.11            .44         .17 

3737 

Pi  134 

8.0 

33  35-475 

80.  i 

+  3.4547  +  .02  14 

+  .004 

+  .0024      o 

.13            .58         .22 

3738 

Pi  135 

7-3 

33  51-202 

86.7 

+  3.4856+.  0227 

+  .004 

+  .0026       o 

.12           .72         .20 

3739 

a  Circini 

3-2 

34  25.286 

85-3 

+  4-7927  +  .H23 

+  •045 

—  .0310       o 

.12        .86      .24 

3740 

Groomb  2135 

6.0 

3427-r56 

74-8 

+  2.2547—  .0021 

+  .007 

—  .0102       o 

.11            .46         .20 

3741 

Pi  148  m 

7.2 

34  41.062 

69.4 

+  1.9974-  .0003 

+  .006 

-.0057      o 

•15        -54      -27 

3742 

L  6038 

5-9 

34  52.740 

83-4 

+  3.67i8  +  .o3i2 

+  .004 

—  .0014      o 

.21         1.83         .53 

3743 

Pi  156 

5-9 

35    4.879 

72-9 

+  i.9O27  +  .ooio 

+  .004 

+  .0017       o 

.10         .44       .19 

3744 

Br  1878 

5-5 

35    6.928 

81.7 

+  2.2332—  .0019 

+  .006 

—  .0069+    I 

.05        .28      .10 

3745 

a  Lupi 

2-3 

35  16.620 

73-8 

+  3.9674+.  0473 

+  .008 

—  .0021       o 

.11        .42      .19 

3746 

a  Apodis 

3-7 

35  25-478 

74-6 

+  7-23I9+.4353 

+•517 

—  .0063       o 

.08        .60      .23 

3747 

L  6048 

4.1 

35  44-787 

85-7 

+  3-7I22  +  .033I 

+  .004 

—  .0015       o 

.09      .50    .15 

3748 

Pi  US 

6.2 

35  S5-489 

76.0 

+  2.8668  +  .0033 

+  .005 

+  .0035      o 

.11      .38     .16 

3749 

Tr1  Bootis 

4.8 

36    1-583 

78.2 

+  2.8187  +  .0025 

+  .005 

+  .OOII         O 

.04        .24      .09 

3750 

ir2  Bootis 

5-9 

1436    1-983 

76.4 

+  2.8163  +  .0025 

+  .005 

-.0013      o 

.09            .62         .22 

3707  jS  940.     IIM  4"  278°. 


3713     IIM  22"  18°. 


CATALOGUE   OF   6188   STARS   FOR    IQOO 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'andiooAp.' 

Prob.  Errors. 
8  Ep.    100  (i'  S  10 

Remarks. 

3701 

0             t                ft 

-  26  23  55.43 

79.0 

ft                   II 

-16.491  +  .295 

it 
+     .20 

tt 
—  .071       o 

//         tt       // 
.14      .80    .28 

378  G  Hydra 

3702 

-  45  40  54.02 

84-5 

-I6.474+.329 

+      .27 

—  .091—    i 

.14      .77    .24 

ii  G  Lupi 

3703 

+  38  5041.41 

59-4 

-16.370+.  214 

+     .08 

—  .019      o 

.12        .58     .32 

3704 

+  52  1846.32 

72.7 

-16.737  +  .  178 

+      .06 

—  .406—     2 

.03        .14     .06 

3705 

+  I94034-78 

77-2 

-16.315  +  .  242 

+     .11 

+  .015       o 

.05      .28    .10 

22  Bootis/ 

3706 

-  S  40    9-73 

64.4 

-16.382  +  .  273 

+     -15 

—  .070      o 

.10      .37    .20 

104  Virginis 

3707 

—  29      2  32.29 

78.7 

-16.337  +  .304 

+     .21 

-  -033      o 

.09    .39  .15 

52  Hydrae  (1)  * 

3708 

-12  5435-62 

77-6 

—  16.341  +  .282 

+     -17 

-  -°37       o 

.13     .60   .23 

3709 

—  67  16    9.76 

82.6 

-16.348  +  .  428 

+    -S3 

-  .074       o 

.14    .65  .23 

149  Circini  (L  5942) 

3710 

-    i  46  47.33 

78.6 

—  16.277  +  .  269 

+    .14 

—  .010—    I 

.04      .23    .08 

51846.   ioM4'.'6in° 

37" 

—   6  27    5.98 

72.0 

—  16.319+.  276 

+    -IS 

—  .071       o 

.08    .34  .15 

106  Virginis 

37" 

-49    418.17 

81.0 

—  16.292  +  .  346 

+    -30 

-  .058       o 

.14    .63   .23 

13  G  Lupi  * 

3713 

-4452  27.59 

81.4 

-i6.287  +  .336 

+    -27 

-  -053      o 

.14        .60     .22 

14  G  Lupi 

37M 

-   3  48    4.66 

64-3 

—  i6.2io+.275 

+    -IS 

-•033-  I 

.11         .40     .21 

21852.    ioM25"268° 

3715 

+  50  17  32.10 

68.2 

—  16.213  +  .  184 

+    .06 

-•054-   3 

.06        .24     .12 

24  Bootis  g 

37i6 

-50    049.72 

78.8 

-i6.i34+-354 

+    .3° 

-.013      o 

.10      .39    .16 

3717 

+  30  48  36.73 

75-7 

-15.925  +  .  232 

+    -09 

+  .IIO—     I 

.03        .19     .07 

37i8 

+  76    8  26.02 

65.0 

—  16.007—  .009 

+    -i? 

+  .017       o 

.04        .l8     .09 

5  Ursae  Min 

3719 

+  27"  7    9,67 

79-6 

-16.063  +  .239 

+     .10 

—  .048      o 

.11        .43      .17 

3720 

-56    722.83 

81.8 

—  16.056  +  .38  1 

+    -36 

—  .044      o 

.12         .57      .20 

3721 

+  22  42      0.64 

66.6 

-15.981  +  .245 

+     .10 

+  .029—   I 

.O?         .30      .15 

26  Bootis 

3722 

+  38  44  43.92 

68.4 

—  15.864+.  218 

+  .08 

+.144-  I 

.04         .17      .08 

ft  616.   i2M  30"  105° 

3723 

+  60  39  58.31 

81-3 

-15.938  +  .  150 

+   .04 

+  .019—  I 

.06        .36     .12 

Groomb  2125 

3724 

-4143    7.21 

74-4 

-15.984+.  341 

+  -25 

-•°35      o 

•09      -35    -IS 

3725 

-41    443-°9 

90.8 

-15.977  +  .340 

+  .25 

-  .030      o 

.10      .63    .16 

357  G  Centauri 

3726 

—  20    o    2.31 

76.9 

-15.950+.  305 

+  .18 

—  .004      o 

.09      .46    .18 

3727 

-45  4831.43 

79-9 

-15.908+.  352 

+  .27 

+  .008       o 

.13        .58     .22 

18  G  Lupi 

3728 

+  53  20  26.67 

69-3 

-15.656  +  .  178 

+  .05 

+  .236—     2 

.09        .37      .18 

3720- 

+  30  1045.76 

66.8 

-15.  767  +  .  240 

+   .09 

+  .120+     I 

.07        .26     .13 

3730 

+  47  13  27.65 

64.1 

—  15.900+.  2OI 

+  .06 

—  .019      o 

.11         .45      .23 

3731 

-45  41  Si-45 

79-4 

-15.894+-  355 

+  .27 

-  .032      o 

.14        .57      .22 

19  G  Lupi  a  * 

3732 

-48  59  24.18 

76.9 

-i5.879  +  .36s 

+  .30 

-  -037       o 

.11        .55      .21 

3733 

+49  48  15.41 

73-9 

-15.793  +  .  194 

+  .05 

+  .049      o 

•07      -35    -IS 

3734 

-n'52  49.15 

74.0 

-15.451  +  .  287 

+  .16 

+  •364-   5 

.O?        .34     .14 

3735 

—  60  25  21.78 

72-3 

-I5.025  +  -338 

+    -34 

+•729-33 

See  Appettdix 

3736 

+  1843  58.34 

76.0 

-15.804+.  259 

+    .11 

—  .092      o 

.11         .38     .17 

3737 

-  24  35  45-38 

75-6 

-J5-743  +  -320 

+    -19 

-.032       o 

.12        .49     .21 

3  Librae 

3738 

—  26  17  28.70 

82.4 

-I5-736  +  -323 

+    .20 

-  -°39       o 

.IO        .50     .17 

380  G  Hydras 

3739 

-6432  22.74 

82.4 

—  15.902  +  .440 

+    -48 

-.236-   3 

.10      .59    .19 

Dunlop.    8"  16"  236° 

3740 

+  44    4  24.10 

69.2 

—  15.  642  +  .  2ii 

+    .06 

+  .O22—     I 

.09        .36     .I? 

3741 

+  52    036.90 

59-4 

-  15.646+.  188 

+    .05 

+  .006      o 

.11         .40     .23 

21863.  7«8-8l'io'.'68o0)v.s. 

3742 

-35  42  16.94 

78.1 

-I5.623  +  .34I 

+    -23 

+  .018      o 

•19    3-33  x-°8 

367  G  Centauri 

3743 

+  5427  19.50 

70.2 

-  15.653  +  .  180 

+    -OS 

-  .023       o 

.10      .37    .18 

3744 

+  44  5°    9-92 

74-9 

-15.  657  +  .  210 

+    .06 

—  .029—    I 

.06         .28      .12 

33  Bootis 

3745 

-4657  32-33 

73-3 

-i5-647  +  -369 

+    .28 

—  .028      o 

.69         .36      .16 

3746 

-7837  12.71 

77-3 

-15.638+.  667 

+  I-37 

—  .027—   I 

.08         .49      .18 

3747 

-37  21  51.59 

81.7 

-I5-633  +  -347 

+    -24 

—  .040      o 

.10      .45    .16 

368  G  Centauri  b 

3748 

+  135749.83 

78.6 

-I5.6i8+.27o 

+    -ii 

-  -034      o 

.11         .40      .17 

3749 
3750 

+  165048.73 
+  16  5047.36 

73-4 
78-5 

-I5.576+.265 
-I5-57I  +  .265 

+    .11 

+    -ii 

+  .OO2         O 

+  .006      o 

.04         .20      .08 
.IO         .69      .24 

JSi864.   5'.'8io3° 

3731    8M  fols.  o?7,  N  18" 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.  and  100  A  n 

Prob.  Errors. 
a  Ep.      100  PL     aio 

M 

h    m          s 

s              s 

s 

s 

n                 n              H 

3751 

L  6054 

7-i 

14  36  12.136 

83-1 

+  3-5933  +  -0278 

+  .004 

—  .0121          0 

.12             .60         .20 

3752 

£  Bootis  m 

3-8 

36  22.396 

69.8 

+  2.8636  +  .  0033 

+  .005 

+  .0038       o 

.05             .27         .12 

3753 

Br  1877 

5-i 

36  44.060 

72.8 

+  2.  9444  +.005  1 

+  .004 

—  .0004       o 

.11             .39         .18 

3754 

Br  1879 

5-8 

36  S5-238 

70.0 

+  2.8796+.  0041 

+  .004 

-.0117+     I 

.12             .57         .26 

3755 

L  6039 

5-4 

37  21.672 

87.8 

+4.7054+.  0992 

+  .032 

+  .0091+  3 

.15        .88      .25 

3756 

Br  1874 

5-9 

37  26.611 

76.2 

+  3-4583  +-02  13 

+  .003 

—  .0016      o 

.11       .42      .18 

3757 

L  6063 

4-i 

37  32-347 

79.0 

+  3-6543  +  -°3°3 

+  .003 

—  .0062  +   I 

.10        .44      .17 

3758 

fi  Virginis 

3-9 

37  47-356 

76.8 

+  3.i57i  +  .oio7 

+  .003 

+  .0071+  I 

.04            .21          .08 

3759 

L  6071 

5-i 

38  51.111 

84.8 

+  3.  6662  +  .0301 

+  .003 

+  .0010       o 

.15             .82          .26 

376o 

1-5823 

6.8 

38  59.88- 

73-i 

+  24-564-  +  8.762- 

-.i8o--i66 

.05            .28         .12 

376i 

Br  1883 

S-o 

39    1-670 

68.0 

+  2.6369  +  .  oooi 

+  .005 

—  .0008       o 

.IO           .42         .20 

3762 

Groomb  2146 

6-5 

39  33-594 

78.4 

+  1.4918  +  .  0103 

-  .005 

+  .0104—    I 

.08           .44         .16 

3763 

L6o73 

6.0 

39  47-562 

87-9 

+  3.9866+.  047  1 

+  .007 

—  .0066       o 

.18      1.08      .30 

3764 

Groomb  2145 

6.0 

39  51.698 

66.0 

+  2.3284—  .0017 

+  .006 

—  .0008       o 

.18            .75         .38 

3765 

L  6070 

5-3 

40    1.466 

90.8 

+4.i676+.os8i 

+  .010 

—  .0029+   I 

.15            .99         .24 

3766 

Br  1881 

5-i 

40  12.637 

73-° 

+  3.46n  +  .O2i6 

+  .003 

—  .0126       o 

.12            .44         .20 

3767 

Br  1884 

5-9 

40  24.523 

67.6 

+  3.0526+.  0078 

+  .003 

—  .0026       o 

•J3        -7°      -33 

3768 

Br  1882 

6.9 

40  26.864 

70.8 

+  3-30I7  +  .OI52 

+  .003 

—  .0020      o 

.07        .39      .17 

3769 

Pi  166 

6.8 

40  30.480 

76.8 

+  3-395°+-OI87 

+  .003 

-  -0037       o 

•13        -57      -23 

3770 

o  Bootis 

4-7 

40  34-477 

72.8 

+  2.7985  +  .0025 

+  .005 

—  .0040       o 

.10        .39      .17 

3771 

e  Bootis 

2.4 

40  37.201 

68.8 

+  2.  62O2  +  .OOO  I 

+  .005 

—  .0036       o 

.03        .15      .07 

3772 

Br  1889 

3-8 

41  11.556 

81.0 

+3.0298+.  0074 

+  -003 

—  .0076      o 

.04        .26      .08 

3773 

Pi  171 

6.4 

4i  32-431 

79-8 

+  3.4oi6  +  .oi87 

+  -003 

—  .0015       o 

.12             .54         .20 

3774 

Br  1885 

5-8 

41  33.49° 

78.8 

+  3-4795  +  -Q2I7 

+  .003 

—  .0004       o 

.11             .52          .20 

3775 

Br  1886 

5-5 

4i  54-431 

77-8 

+  3.49I5  +  .0220 

+  .003 

+  .OO22          O 

.11             .52         .20 

3776 

Br  1887 

5-9 

42    6.431 

81.0 

+  3.4991  +  .0224 

+  .003 

—  .OOI  I          O 

.11            .51          .19 

3777 

L6c66 

5-7 

43  13-165 

84.1 

+  5.8932  +  .2I36 

+  .129 

+  .0034-     I 

.l8            .78         .27 

3778 

L  6111 

6.0 

43  ^-W0 

82.1 

+  3.4566  +  .0206 

+  .002 

—  .0022       o 

.13            .87          .28 

3779 

fi.  Librae  m 

5-5 

43  5°-°99 

70.7 

+  3-2822  +  .OI45 

+  .003 

—  .0042       o 

.09            .36         .17 

378o 

a-1  Octantis 

5-7 

44  13-399 

66.7 

+  10.0449  +.9923 

+1.842 

+  .0015-17 

.22          1.89         .85 

378i 

Br  1892 

4.6 

44  24-855 

78-5 

+  3-5I25  +  .0233 

+  .002 

—  .0181       o 

.11             .45         .l8 

3782 

L6o9s 

6.0 

44  27.400 

89.2 

+  4.8241  +  .1038 

+  -030 

—  .0029      o 

.18      1.08      .29 

3783 

o  Lupi 

4-5 

45    6.559 

84.1 

+  3.  8960  +.0403 

+  .004 

—  .0032       o 

.13            .63         .21 

3784 

a1  Libras 

5-5 

45    9-247 

66.2 

+  3.3U2  +  .OI55 

+  .002 

—  .0071       o 

.04           .l8         .09 

3785 

Groomb  2152 

6-3 

45  11.158 

83-4 

+  2.3561—  .0010 

+  .006 

—  .0216      o 

.08           .50        .15 

3786 

Br  1906 

7.8 

45  19-339 

69.4 

+  0.2876  +.0666 

-  -077 

-  -0053       o 

.10        .57      .25 

3787 

o2  Librae 

2.8 

45  20.709 

67.1 

+  3.3ii8  +  .oi55 

+  .002 

—  .0074       o 

.03           .13         .06 

3788 

Pi  193 

6.0 

45  40.066 

81.2 

+  2.5834     .0000 

+  .005 

+  .0017       o 

.11            .42         .17 

3789 

Br  1900 

5-9 

45  44-787 

67-3 

+  2.1384—  .0004 

+  .005 

-.0008+  I 

.09        .32      .16 

3790 

Br  1897 

5-i 

45  49-838 

74-9 

+  3.io68  +  .oo92 

+  .003 

+  .0054+  I 

.11        .46      .20 

3791 

Br  1895 

7.0 

45  59-238 

73-1 

+  3-3472  +  .oi66 

+  .002 

—  .0022+   I 

.10        .48      .20' 

3792 

Br  1896 

6.9 

46  14-569 

75-2 

+  3-3585  +  -°i68 

+  .002 

—  .0010       o 

.13            .48         .21 

3793 

Br  1902 

6-3 

46  17-337 

72.2 

+  2.  04O2  +  .000  1 

+  .004 

—  .0072       o 

.10        .39      .18 

3794 

R  Apodis 

Var. 

46  28.758 

9J-3 

+  6.6828  +  .3I27 

+  -247 

-.0185-   5 

.l6         I.O4         .25 

3795 

Groomb  2154 

5-6 

46  32.793 

75-3. 

+  2.3684—  .0009 

+  .005 

—  .0181       o 

.09            .52          .20 

3796 

L  6124 

5-3 

46  34.462 

83-8 

+  3-7479+-°326 

+  .002 

-  .0032       o 

.14            .70         .23 

3797 

L  6127 

6.7 

46  35-5°8 

91.2 

+  3-5622  +  .0252 

+  .002 

—  .0263—    I 

.15          1.29         .28 

3798 

£  Bootis  e.g. 

4.8 

46  46.462 

70.6 

+  2.  7665  +  .0023 

+  .005 

+  .0092       o 

3799 

ir2  Octantis 

5-6 

47  20.788 

76.5 

+  9.9615  +  .9509 

+1-633 

—  .0096+    I 

.06        .68      .23 

3800 

L  6119 

5-3 

14  47  Si-747 

90.2 

+  4.5824+.  0836 

+  .016 

-.0195       o 

.15      i.oo      .25 

3765  h  4698.      I2M  9"  200°. 


3766  W.  H.     7"  9"  129° 


3768  Hussey.     i2M  3"  249. 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


153 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3at 

|i'  and  ioo  Ap.' 

Prob.  Errors. 
>Ep.  loop.'  6  10 

Remarks. 

3751 

O           /               It 

—  32  20  20.24 

80.  i 

tt                      // 

-i5-7"  +  -33<5 

// 

+     .22 

// 
-.143-    I 

//          //       // 

.15       .71     .26 

370  G  Centauri 

3752 

+  14    9  25.67 

69-5 

-15.  586  +  .  270 

+     .11 

—  .027       o 

.04         .22      .10 

X  1865.  4ft-4V»  <i"±,  binary 

3753 

+   835  21.79 

71.8 

-I5-547  +  -278 

+      .12 

-.008       o 

.09         .33      .16 

31  Bootis 

3754 

+  12    5  29.27 

68.6 

-15.  640+.  271 

+     .12 

—  .112—     I 

.09         .39      .19 

32  Bootis 

3755 

-62  2655.87 

85-6 

-15.589+.  442 

+    -45 

-.085+     I 

.12         .69      .21 

19  G  Circini 

3756 

-2434  17.60 

80.2 

-I5-5I4+.326 

+  .19 

—  .014      o 

.10      .38    .15 

12  G  or  4  Librae  (53  Hydrae) 

3757 

-344435.19 

75-8 

-15.687  +  .344 

+  .23 

-.193-  I 

.11         .47      .20 

371  G  Centauri  cl 

3758 

-   5  13  24.80 

76-9 

-i  5.  802  +  .300 

+  .15 

-.322+  I 

.04         .22      .08 

3759 

-3446    5.69 

75-2 

-15.431  +  .348 

+  .23 

—  .010      o 

.14         .67      .27 

372  G  Centauri  c2 

3760 

-87  44  30.62 

75-o 

-15.480+2.279 

-.067-17 

.05         .28      .11 

20  G  Octantis  z 

376i 

+  26  57  10.08 

66.5 

-15-433  +  -252 

+   .09 

—  .021       o 

.09         .35      .18 

34  Bootis 

3762 

+  61  41  16.81 

73-9 

-15.417  +  .  147 

+   .04 

-.035+  I 

•07      -33    -H 

5  1878.   8*7  4"  327° 

3763 

-47    i    8.99 

80.8 

-I5-399+-379 

+  .29 

-.031-  I 

•13      -65    -23 

29  G  Lupi 

3764 

+  40  52  56.47 

52-7 

-15.  342  +  .  224 

+  .07 

+  .O22          0 

-14      -52    -33 

3765 

-51  57  36.98 

87.9 

-15.445  +  .397 

+  .32 

—  .090      o 

.12        .71      .20 

30  G  Lupi  b  * 

3766 

-25    i    6.94 

71.8 

-15.459+.  330 

+  .19 

—  .114—     I 

.11         .41      .19 

54  Hydrae  * 

3767 

+   i    8  21.40 

62.0 

-15-349+  -293 

+    .14 

—  .015      o 

.12        .49     .26 

1  08  Virginis 

3768 

—  15    2  17.08 

70.2 

-i5.338  +  .3i6 

+    -17 

—  .006      o 

.07        .35      .16 

5  Librae  * 

3769 

-2045    7.02 

78.8 

-15.446  +  .  325 

+    .18 

-.118      o 

.12         .51      .20 

3770 

+  i?  23  15-44 

70.0 

-15.384+.  269 

+    .11 

—  .060      o 

.09        .34     .16 

377i 

+  27  2944-25 

65.8 

-15.314+.  252 

+    .09 

+  .008      o 

.03        .13      .06 

2i877.     7M3"329° 

3772 

+   2  18  50.88 

79.0 

-15.328  +  .  292 

+    .14 

-.038-  I 

.04        .23      .08 

109  Virginis 

3773 

-2054  19.33 

82.1 

-I5.276  +  -328 

+    .18 

—  .006       o 

.11         .51      .18 

3774 

-25    12    15.93 

75-6 

-IS-297  +  -335 

+    .19 

—  .028      o 

.IO        .44     .18 

55  Hydrae 

3775 

-2540  5.91 

76.1 

-I5.252+.337 

+    .19 

-.003      o 

.11         .51      .20 

56  Hydrae 

3776 

-26  1338.59 

78-5 

-I5.259+.338 

+    .19 

—  .021      o 

.10      .46    .18 

57  Hydrae 

3777 

-72  4638.59 

86.6 

-15.  144+.  568 

+    .80 

+  .030      o 

.16         -8l      .25 

17  G  Apodis  * 

3778 

-2350  6.59 

80.6 

-iS.i69  +  .336 

+    .19 

-.013       o 

.14         .91      .30 

21  G  Librae 

3779 

-  13  43  56-89 

63.0 

-i5-i64+.32o 

+    .16 

-  -025      o 

.08         .28      .16 

ft  106.  5M8-6M6  i'.'6  340°,  binary 

378o 

—  82  49  23.60 

68.4 

-15.053  +  .968 

+  2-93 

+  .064      o 

•l8      1.29      .57 

378i 

-27  3238.07 

75-o 

-I5.I72  +  .34I 

+      .20 

—  .066—     2 

.10      .37    .16 

58  Hydrae 

3782 

-63  2347.96 

87.1 

—  I5-I25  +  .468 

+    -47 

—  .022       o 

.15        .90     .26 

26  G  Circini 

3783 

-43    94I-38 

77-8 

-I5.IOI  +  .38I 

+  .26 

~  -035         ° 

.10      .42    .17 

3784 

-i5  3453-6? 

68.3 

-I5-I4I  +  .324 

+  -17 

-.078—     I 

.04         .21      .IO 

3785 

+  38  13  23.49 

80.4 

-14.956+.  231 

+  .07 

+  .105-     2 

.07         .36      .13 

3786 

+  72  22  59.60 

64.1 

-15.027  +  .034 

+  .11 

+  .026      o 

.09         .41      .21 

6  UrsaeMin 

3787 

-153734.85 

66.8 

-I5-I28+.324 

+  -17 

—  .076—     I 

.03         .12      .06 

3788 

+  29      I   47.40 

70.0 

—  15.042  +  .256 

+   .09 

—  .009       o 

.10      .33    .17 

3789 

+  4631  57-93 

61.0 

-15.  117  +  .  213 

+  .06 

-  .088      o 

-07         .27      .15 

38  Bootis  h 

3790 

-    i  52  57-64 

74-7 

-I5-I62  +  .307 

+    -14 

-.138      o 

.10      .37    .16 

n  Libras 

379i 

-17   22   27.54 

73-i 

-15.143  +  .  330 

+    -17 

-.128       o 

.10         .48      .20 

3792 

-17   5635-67 

75-2 

-15.009  +  .  331 

+    -17 

—  .009       o 

.12         .47      .20 

10  Librae 

3793 

+  49    7  53-79 

61.4 

—  14.  908+.  203 

+    -05 

+  .089-  I 

.08         .29      .l6 

39  Bootis  * 

'3794 

-76  15  18.75 

89.2 

-14.997  +  .652 

+  1.09 

—  .Oil—     2 

.12         .75      .20 

L6o77-     5^5  to  6*2 

3795 

+  37  4o  55.77 

73-1 

-14.897  +  .  234 

+    -07 

+  .085-     2 

.08         .41      .17 

3796 

-37  2330.11 

75-i 

-i  5.  ooi  +  .369 

+    -23 

—  .020      o 

•13     -75    -29 

376  G  Centauri 

3797 

-3°    953-6i 

82.6 

-15.006  +  .  349 

+      .21 

-.026-   3 

.15     .77    .26 

377  G  Centauri 

3798 

+  193057.00 

71.8 

-I5.07S  +  .275 

+      .10 

—  .106+   i 

See  Appendix 

3799 

-82  38  14.19 

76.9 

-14.959+.  974 

+  2-83 

-.023-    i 

.06         .64      .22 

3800 

-59  42  12.01 

84-5 

-I5.0I7  +  .45I 

+     -41 

—  .III—     2 

.12         .60      .19 

29  G  Circini 

3777  Innes.    8*5  i'/7  ioa°. 


379321890.    6«8  3'.'s  44°. 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

H  and  100  A  p. 

Prob.  Errors, 
a  Ep.      loo  (i     a  10 

M 

h    m         s 

s              s 

s 

s 

tt           it         it 

3801 

Br  1899 

5-6 

M  48  3J-543 

73-9 

+3.4751  +  -0208 

+  .O02 

—  .0008      o 

.09        .40      .17 

3802 

0  Circini 

5-5 

48  40.524 

87.0 

+4.7860+.  097  1 

+  .023 

—  .0007      o 

.18        .96      .28 

3803 

Pi  217 

5-8 

48  54-037 

82.8 

+  I.5I84+.OO9O 

+  .003 

—  .0169       o 

.05        .30      .09 

3804 

Br  1901 

6.0 

48  57.024 

76.0 

+  3-25o8  +  .oi33 

+  .OO2 

—  .0042      o 

.08        .44      .17 

3805 

L6i32 

5-7 

49    9-943 

89-3 

+  4.2430+.  0584 

+  .007 

+  .0027       o 

.20            .99         .28 

3806 

<i>  Octantis 

6.0 

49  22.12- 

79.0 

+  I2.256-+I.578- 

+  .012-  +30 

.18         1.89         .6l 

3807 

L  6146 

5-5 

49  36.320 

85-3 

+  3.6693  +  .0283 

+  .OO2 

+  .0016      o 

.11             .72          .21 

3808 

L  6141* 

6-3 

49  44-45° 

87.6 

+  4.0530+.  0473 

+  .004 

—  .0025       o 

.18            .87          .27 

3809 

ft  Ursae  Min 

2.O 

5°  59-597 

67.1 

—  0.2205  +  .  1005 

-.128 

—  .0074+     2 

.03            .11          .06 

3810 

Br  1903 

5-8 

51  20.434 

73-4 

+  3.  2490+.  0130 

+  .OO2 

—  .OOOI         O 

.04            .21          .09 

3811 

Pi  221 

6.1 

5i  29.995 

87.8 

+  2.  8299  +.0036 

+  .004 

-  .0013       o 

.04            .46         .11 

3812 

Bruss  5978 

7-3 

5i  36-328 

83-9 

+  3.4887  +  .0205 

+  .OO2 

+  .0678+10 

.11             .90         .26 

38i3 

Pi  212 

6-3 

5i  37-493 

82.4 

+  3.4952  +  .0207 

+  .OO2 

+  .0742+11 

.06            .36         .12 

3814 

Br  1905 

4.6 

5i  57-623 

76.8 

+3.i284+.oioo 

+  .OO2 

—  .0067+     I 

.10        .46      .19 

38i5 

/8  Lupi 

2-7 

51  58.810 

72.9 

+  3.  9099  +.0392 

+  .OO2 

-  .0043       o 

.10        .39      .17 

3816 

Br  1908 

5-8 

52  25.540 

74-4 

+  3.  07  2  7  +  .0083 

+  .OO2 

+  .0041       o 

.11             .44         .19 

38i7 

Pi  226 

6.0 

5231.911 

65-5 

+  2.  7980+.  0031 

+  .004 

+  .0014       o 

.14            .63          .31 

3818 

K  Centauri 

3-2 

52  39-243 

74-8 

+  3.8855  +  .0377 

+  .OO2 

-.0015       o 

.11            .42          .19 

3819 

Br  1904  m 

5-8 

52  44.029 

81.1 

+  3.5401  +  .0228 

+  .OOI 

-  .0034      o 

.11            .51          .18 

3820 

Br  1907 

6.8 

52  48-I57 

71.9 

+3.  2444+.  0129 

+  .O02 

—  .0017       o 

.14            .50         .23 

3821 

L6i78 

6.8 

52  54.982 

88.9 

+  3-77I7  +  .0323 

+  .OOI 

—  .0025      o 

.12        .66      .19 

3822 

Pi  235 

5-9 

53    3-888 

73-3 

+  1.9907  +  .0016 

+  .004 

+  .OII4+     2 

.08        .42      .17 

3823 

Br  1909 

6.2 

53  28.975 

68.8 

+  3-2393  +  -OI29 

+  .O02 

—  .0072       o 

.10        .38      .18 

3824 

L  6186 

6.0 

54  52-699 

89.8 

+  3-7865  +  .Q325 

+  .OOI 

+  .0013      o 

.18      1.04      .28 

3825 

8  Librae 

Var. 

55  37-69I 

74-4 

+  3.2ooo+.on6 

+  .OO2 

—  .0046       o 

.06        .26      .11 

3826 

Br  1914 

5-7 

55  46.88o 

76-5 

+  2.3006—  .0002 

+  .004 

—  .0028      o 

.08        .40      .16 

3827 

Pi  260 

5-i 

55  59-495 

82.0 

+  0.9420+.  0280 

—  .022 

—  .0124+   I 

.05      .34    .11 

3828 

Pi  239 

5-8 

56    8.087 

74-9, 

+  3-H3I  +  .0092 

+  .OO2 

+  .0025       o 

.13        .66      .27 

3829 

Br  1910 

6.0 

56    8.659 

83.6 

+  3.5660+.  0231 

+  .OOI 

+  .0067       o 

.14            .60         .21 

3830 

17  Circini 

5-3 

56  26.538 

81.0 

+  4.9678  +  .  1042 

+  .O2O 

+  .0183+  3 

-l8            .70         .27 

3831 

Br  1912 

5-9 

56  41.621 

84.6 

+  3.  0690  +.0083 

+  .OO2 

+  .0008      o 

.11             .38         .14 

3832 

L  6198 

5-6 

56  51.962 

74-2 

+  3.6574+.  0268 

.OOO 

—  .0030       o 

,l6            .92         .37 

3833 

Groomb  2196 

5-9 

57    3-H8 

73-9 

—  4.3510+.  6859 

+  .0897  +  20 

.06            .44         .17 

3834 

0)  Bootis 

4.9 

57  43-657 

73-1 

+  2.6275  +  .0014 

+  .004 

—  .0005       o 

.10        .38      .17 

3835 

Br  1915 

4-7 

57  50-839 

67.4 

+3.  0284  +.007  5 

+  .OO2 

-  -0033       o 

.13            .48         .24 

3836 

ft  Bootis 

3-6 

58  10.746 

76.8 

+  2.  2596+.  0001 

+  .004 

—  .0040       o 

.03            .18         .07 

3837 

tr  Librae 

3-4 

58  12.929 

76.0 

+3.5018+.  0209 

.OOO 

—  .0036       o 

.05        .24      .10 

3838 

rr  Lupi  m 

4.0 

58  18.442 

81.6 

+4.0641  +  .045  1 

+  .OOI 

—  .0022       o 

.09        .48      .16 

3839 

L  6209 

5-3 

58  49-I07 

87.9 

+  3.88i8  +  .o35o 

.000 

+  .0015       o 

.11        .64      .18 

3840 

Groomb  2182 

6.1 

59    6.510 

79.2 

+  I-3982  +  .OI24 

—  .006 

-  .0037       o 

.08      .48     .17 

3841 

Pi  263 

5-8 

14  59    6.513 

69.6 

+  2.3946+.  0002 

+  .005 

3^0039      o 

.15        .68      .31 

3842 

*l>  Bootis 

4.6 

15    o    9.634 

72.2 

+  2-57O2  +  .OOI2 

+  .004 

-•0133+  I 

.03           .21         .09 

3843 

Pi  2 

6.9 

o  18.997 

80.0 

+  0.048  1  +  .07  2  2 

-•075 

-.0845+14 

.08           .50        .17 

3844 

Pi  262 

7-5 

o  23.446 

79.8 

+3.4700+.  0194 

.000 

—  .0029       o 

•13        -57      -2i 

3845 

L  6217 

6.0 

o  28.280 

90.9 

+  4.I535  +  .0487 

+  .OOI 

+  .0032       o 

.20      1.04      .28 

3846 

Grwjs  1  2  20 

6.2 

o  29.3- 

69.8 

+  I-9764+.OO2O 

+  .003 

-.0426+  3 

.13      .94     .40 

3847 

Br  1923 

5-2 

o  29.8- 

68.6 

+  i.98o3  +  .oo2o 

+  .003 

-.0386+  3 

.07      .32     .15 

3848 

L  6197 

5-9 

o  36.239 

88.5 

+  5.  2695  +  .  1263 

+  •025 

—  .0028       o 

.18      1.04      .28 

3849 

v  Librae 

5-4 

i    2.816 

64-9 

+  3-3389+  -0153 

+  .OOI 

-  -0033       o 

.08       .36     .18 

3850 

Br  1920 

6.9 

i  14.038 

70.2 

+  3-3420+.OI54 

+  .OOI 

—  .0045      ° 

.09      .36    .17 

3808  h  4715. 


277° 


3819/8239.     6*C5-6"!I6  i"  318°,  very  slow. 


CATALOGUE  OF  6 1 88  STARS  FOR  1 900 


155 


No. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3dt 

(i'and  100  A  n 

Prob.  Errors. 
8  Ep.    loop'S  10 

Remarks. 

3801 

0             /                 // 

-24  13  59.77 

76.6 

//                      // 

-14.903  +  .346 

It 

+  .19 

it 
-  .036       o 

H                   It               II 

•°9      -37    -15 

12  Librae 

3802 

—  62  22   28.75 

79-4 

-14.868+.  475 

+  -45 

—  .010      o 

.14      .60    .23 

3803 

+  5942      0.73 

74-o 

-I4-7I9+.I53 

+  .04 

+  .126—     2 

.06         .28      .12 

3804 

-II   29  25.65 

73-2 

-I4.864+.325 

+  .16 

—  .022      o 

.08         .34      .15 

13  Librae  (  l 

3805 

-52   24  13.43 

80.7 

-14.841  +  .423 

+  •33 

—  .012      o 

.14         .6l      .23 

36  G  Lupi  c 

3806 

-84  23  40.36 

78.2 

—  14.863  +  1.211 

—  .046  +     I 

.15      2.13      .69 

3807 

-33  2659.10 

80.3 

—  14.816+.  367 

+  .22 

-.013      o 

.IO         .49      .l8 

381  G  Centauri 

3808 

-47  28  23.74 

84.8 

—  14.822  +  .405 

+  .29 

—  .027      o 

.15         .71      .23 

37  G  Lupi  * 

3809 

+  7433  S1-" 

64.6 

—  14.716—  .016 

+  •17 

+  .005-     I 

.02         .11      .06 

3810 

—  ii    o  22.34 

70.0 

-14.703  +  .328 

+  .16 

—  .002      o 

.05         .21      .IO 

15  Librae  (* 

3811 

+  1451    0.96 

85-1 

-14.707  +  .  287 

+  .10 

—  .016      o 

.05      .37    .10 

3812 

-  20  57  44.64 

81.5 

-16.349+.  359 

+  .18 

-1.664+7 

.11      1.03      .31 

1W.H.     1  7"  294° 

3813 

-2057  51.96 

84.2 

-16.438  +  .360 

+  .18 

-1-754+8 

.06         .39      .12 

I  Parallax  '/i  7 

3814 

-   3  56  21.61 

73-7 

-i4.828  +  -3i6 

+  .14 

—  .164—    i 

.08         .33      .14 

1  6  Librae 

3815 

-42  43  52.04 

71.9 

-I4-7I4+.395 

+  .26 

-.051       o 

•08         .33      .15 

3816 

+  o  14    7.02 

74.1 

-14.667  +  .  313 

+  -I3 

-.031      o 

•°9      -35    -i5 

i  Serpentis 

3817 

+  16  47  25.86 

62.6 

—  14.  650+.  285 

+  .10 

—  .020      o 

.11    .59  .30 

3818 

—  41  42  10.50 

75-2 

-14.653  +  .393 

+  .25 

-.032       o 

.09    .39  .17 

3819 

-27  15  21.34 

80.7 

-I4.632  +  .359 

+  .20 

—  .014      o 

.10      .47    .17 

59  Hydrae  * 

3820 

—  10  45  11.42 

71.8 

-14.628  +  .  330 

+  .16 

-.015       o 

.10      .41     .19 

17  Librae 

3821 

-37  2848.31 

83.0 

—  14.614+.  383 

+  .23 

—  .007       o 

.16     .87    .28 

386  G  Centauri 

3822 

+  50    2  14.34 

68.0 

—  14.830+.  206 

+  .05 

-.232+  I 

.08    .36  .17 

3823 

-10  44  32.16 

59-9 

—  14.649  +.330 

+  •15 

—  .076—    I 

.08      .27    .16 

1  8  Librae  * 

3824 

-373937-62 

88.2 

-i4.53i  +  .388 

+  -23 

-  -°43       o 

.16      .85    .24 

388  G  Centauri 

3825 

-   8    7  19.97 

69.2 

-H-454+  -329 

+  •15 

—  .Oil         0 

.06      .29    .13 

SM  to  6" 

3826 

+  393941.98 

71.4 

—  14.410+.  238 

+  .06 

+  .024      o 

.09     .30  .14 

40  Bootis 

3827 

+  66  19  50.46 

78-5 

—  14.389+.  100 

+  .06 

+.032-  I 

.05       .28    .10 

3828 

—     2   21   3O.6l 

73-i 

-14.441  +  .321 

+  .14 

—  .029      o 

.11         .49      .21 

3829 

-27  3952.33 

78.1 

—  14.466  +.368 

+  .20 

-•0-54+  I 

•13      -53    -2i 

60  Hydrae 

3830 

—  63  38  20.00 

78.4 

-I4-399+-5I2 

+  .48 

-.005+     2 

.14     .56  .23 

3831 

+  o  15  18.24 

81.8 

—  14.406  +  .318 

+  .13 

—  .028      o 

.09    .34  .13 

2  Serpentis  * 

3832 

-32  1456-74 

65.1 

-I4-4I9  +  .378 

+  .21 

—  .051       o 

•14      -77    -37 

45  G  Lupi 

3833 

+825521.55 

73-2 

-14.599-  .427 

-.243+  9 

.07      .41    .17 

3834 

+25  24  11.55 

71.4 

-I4-373  +  .274 

+  .09 

—  .058       o 

.09      .36    .16 

3835 

+     2   29      1.  60 

64.7 

-I4-3IO+.3I5 

+  •13 

—  .002       o 

.09      .34    .18 

no  Virginis 

3836 

+  4047    5-37 

72.8 

-I4-330+-237 

+  .06 

-  -043      o 

.03      .19    .08 

3837 

-2453  20-58 

76.2 

-14.340+.  364 

+  .19 

-•055-  I 

.05      .25    .10 

20,  45  G  Librse,  y  Scorpii,  etc. 

3838 

-463935-S3 

78.3 

-i4-3I3  +  -422 

+  .28 

-  -033       o 

.08     .36   .14 

h4Ja8.  4ly17-4»"8i"  87°,  si.  binary 

3839 

-40  40  37.20 

82.8 

-14.257  +  .404 

+  .24 

—  .009      o 

.10      .49    .17 

3840 

+  6035  50.34 

78.6 

-14.213  +  .  149 

+  .04 

+  .017      o 

.08     .42   .15 

3841 

+35  35  49-6i 

61.5 

-14.243  +  .  251 

+  .07 

-.013       o 

.12         .60      .32 

3842 

+  27  20  14.51 

74-8 

—  I4.i8s  +  .270 

+  .09 

—  .020—    I 

.04        .21      .08 

3843 

+  72    921.79 

79.0 

—  14.070+.  002 

+  .12 

+  .086-   9 

.08        .38      .I4 

9  Ursas  Min 

3844 

-22  56    4.23 

84.6 

-14.191  +  .364 

+  .18 

—  .040      o 

.11         .51      .I? 

3845 

-4842    6.97 

85-5 

-I4.I29+.435 

+  .29 

+  .017      o 

•15      -73    -23 

54  G  Lupi 

3846 

+  48    2  34- 

66.4 

—  14.120+.  206 

+  .05 

+  .025-    4 

.11      .69    .32 

1  See  Appendix 

3847 

+48    237- 

60.6 

—  14.114+.  206 

+  .05 

+  -031-   4 

.06      .25    .14 

1  44  Bootis  i 

3848 

-6641  56.54 

87-5 

-I4.I50+.550 

+  .56 

—  .012       o 

.15      .93    .26 

2  G  Trianguli  Aust 

3849 

-1552    9.24 

58.6 

-I4.I44+.35I 

+  .16 

-  -034      o 

.07      .29    .16 

Also  vl 

3850 

—  16    5  50.07 

72.6 

—  I4.I23  +  .352 

+  .16 

—  .024      o 

.08      .32    .14 

22  Librae  (v2) 

3823  2  1894.  IOM  ao"  40° 


3831/8348.  8"  o'.'fi  116°. 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i  and  100  A  p 

Prob.  Errors. 
o  Ep.     ioO|i    a  10 

M 

b    m         s 

s               s 

s 

8 

/'                 //             n 

3851 

Groomb  2213 

7.2 

15      I  40.86- 

79.1 

—  6.538-+!.  122- 

—  .OIO-  +     2 

.08            .48         .17 

3852 

X  Lupi  m 

4-4 

2     6.353 

75-2 

+  4.0202  +  .041  7 

—  .001 

-.0023      o 

.14        .68      .27 

3853 

Br  1925 

5-7 

2     7.119 

70-5 

+  i.9868+.ooi8 

+  .003 

—  .0062       o 

.08        .36      .16 

3854 

Pulkjj  2195 

6.4 

2-4O.O22 

84.1 

+  2.35o8  +  .ooo4 

+  .005 

-  .0053       o 

.12            .69         .21 

3855 

Br  1924 

5-° 

2  54-S36 

72.4 

+  2.  6346  +.001  7 

+  .004 

+.0138+  I 

.O?            .32         .14 

3856 

Radcl  3328 

5-5 

3  25-312 

78.8 

+  1.7108  +  .  0056 

.000 

+  .0051       o 

.12            .72         .25 

3857 

L  6236 

5-8 

3  48.559 

80.3 

+  4.4418  +  .0639 

+  .OOI 

—  .0006       o 

.l6            .69         .26 

3858 

Pi  282 

7-i 

4    1-183 

80.7 

+  3.4904+.  0197 

.000 

—  .0020      o 

.10        .57      .19 

3859 

Br  1926 

6.1 

4    4-742 

70.0 

+  2.  5890+  .0015 

+  .004 

.0000      o 

.11             .42         .20 

3860 

Pi  291 

6.2 

4  14.106 

63-5 

+  2.  6123  +  .OOI6 

+  .004 

—  .0012       o 

.12        .66      .33 

3861 

L  6222 

5-9 

4  43  -°98 

82.3 

+  5.6792+.  1580 

+.037 

—  .0002       o 

.18        .72      .27 

3862 

K1  Lupi 

4.0 

4  58-790 

79.8 

+  4-I479+.  0475 

—  .001 

—  .OIOI         O 

.10        .54      .19 

3863 

K2  Lupi 

6.2 

5    0.420 

87.4 

+  4.I478+.0475 

—  .001 

—  .0106       o 

.18        .88      .27 

3864 

£  Lupi 

3-4 

5    5-949 

79-6 

+  4.  2846+.  0548 

—  .001 

-.0115      o 

.11        .52      .20 

386S 

L62S7 

S-o 

6    6.443 

82.9 

+  4.0093  +  .0401 

—  .002 

—  .0036      o 

.16        .88      .29 

3866 

t  Librae 

4-7 

631.188 

71.8 

+  3.4i2i  +  .oi7i 

.000 

—  .0026      o 

.04        .26      .11 

3867 

PulkB  2201 

6.1 

7  3I-244 

78.2 

+  2.7294  +  .0029 

+  .004 

—  .0003       o 

.12        .75      .27 

3868 

Br  1928 

6-3 

7  37-296 

70.1 

+  3.  4099  +.01  69 

.000 

—  .0036      o 

.10        .40      .19 

3869 

Pi  5 

7-4 

7  37-937 

87.4 

+  3.497  1  +  .0204 

—  .001 

—  .0289      o 

.10        .70      .19 

3870 

Groomb  2198 

8.6 

8  12.118 

87.9 

+  1.9464  +.0026  ' 

+  .OO2 

+  .OO2I         0 

•13        -Si      -i? 

3871 

Br  1929 

5-i 

8  29.673 

76.4 

+  3-6645  +  .025I 

—  .001 

+  .0003      o 

.11        .48      .20 

3872 

L  6259 

6.1 

831.919 

83.8 

+  4.8o32  +  .o84i 

+  .003 

—  .0028       o 

.18        .75      .27 

3873 

Pi  14 

7.0 

8  48.844 

70-3 

+  3-384i  +  .oi62 

.000 

—  .0079      o 

.16        .62      .30 

3874 

8  Circini 

5-4 

8  51.502 

84.1 

+  4.  8102  +  .0844 

+  .003 

—  .0018      o 

.18        .75      .27 

3875 

Br  1930 

6-5 

8  55.068 

74-7 

+  3.378i  +  .oi58 

.000 

—  .0016       o 

.12            .44        .20 

3876 

t  Circini 

4-9 

9  11.807 

87.1 

+  5.0199+.  0986 

+  .005 

—  .0002       o 

.20           .84        .27 

3877 

Groomb  2283 

7-3 

9  20.50- 

84.8 

-20-557-+7.003- 

—  .008-  —41 

.04           .28         .08 

3878 

L  6280 

5-3 

9  29.197 

86.7 

+  3-9303  +  -0355 

—  .002 

—  .0004      o 

-15        -86      .25 

3879 

y  Trianguli  Aust 

2.9 

934-155 

73-i 

+  5.5340+.  1397 

+  .O2O 

—  .0114—    I 

.09        .39      .16 

3880 

/3  Circini 

4.2 

9  40-927 

82.0 

+  4.661  1  +  .0750 

—  .001 

—  .0126+   I 

•13        -57      -2i 

3881 

Groomb  2201  ' 

6-5 

947.118 

67-3 

+  2.  2859+.  0009 

+  .004 

+  .0006       o 

•14        -75      -35 

3882 

Br  1932 

5-6 

10  13.054 

80.6 

+  2.9793  +  .0066 

+  .OO2 

—  .0014      o 

.06        .40      .13 

3883 

\  Bootis 

5-4 

10  18.258 

80.2 

+  2.5O76+.OOI3 

+  .003 

—  .0058      o 

.11        .36      .15 

3884 

Pi  19 

5-8 

10  35.082 

80.3 

+  3.4689+.  0184 

—  .001 

-.0031       o 

.09        .54      .18 

3885 

Br  1933 

5-7 

10  43.419 

69.8 

+  3.0523  +  .  0081 

+  .OOI 

—  .0072       o 

.10        .33      .16 

3886 

L  6272 

S-6 

10  45-739 

88.2 

+4.7904+.  0818 

+  .OOI 

—  .0027       o 

.18        .99      .28 

3887 

8  Bootis 

3-4 

ii  28.270 

74-8 

+  2.4i88  +  .ooi2 

+  .004 

+  .0071+  I 

.04           .22         .09 

3888 

1*  Lupi  m 

4-5 

ii  34.466 

79-4 

+4.i5i6+.0452 

—  .004 

—  .0031       o 

.14           .63         .24 

3889 

Brisb  5261 

6-5 

ii  36.263 

90-5 

+  4.I536+.045I 

—  .004 

—  .0014      o 

.20        I.O4         .28 

3890 

0  Librae 

2.6 

ii  37.488 

70-3 

+  3.2230+.on8 

+  .00  1 

—  .0067       o 

.03           .15         .07 

3891 

Br  1931 

4.4 

ii  44.651 

79.1 

+  3.6386+.  0238 

—  .002 

__—  .0015       o 

.11            .48         .18 

3892 

L  6303 

5-9 

12  22.805 

86.2 

+  3-9I73  +  -°344 

-.003 

—  .0022       o 

.12           .84         .24 

3893 

Groomb  2214 

5-3 

13  29.327 

82.9 

+  0.6716+.  0393 

-.031 

+  .0382+   7 

.05            .40         .12 

3894 

Pi  36 

5-9 

13  55-426 

62.7 

+  2.6873  +  .0028 

+.003 

—  .0022       o 

.12           .57         .29 

3895 

Br  1937 

5-2 

14  12-433 

69.8 

+  3-0594+  -0081 

+  .00  1 

+  .0246+   3 

.07            .28         .14 

3896 

8  Lupi 

3-4 

14  48-395 

84.1 

+  3.9228+.  0340 

—  .004 

—  .0006       o 

.IO           .50        .16 

3897 

L  6324 

5-9 

IS    3-403 

87.0 

+  4.0234+.  0437 

-.005 

-.1631-   9 

.l6         I.O2          .29 

3898 

L  6309 

5-8 

IS    4-053 

89.9 

+  4.8233  +  .0815 

-.003 

—  .0109—    I 

.20         I.O5         .29 

3899 

L  6322 

5-3 

15  10.204 

78.2 

+  4.  1  584  +.0448 

-.005 

—  .0136       o 

.15            .70         .2/ 

3900 

Br  1938 

6-5 

!5   15   I3-372 

76.4 

+  3-3939+  -OIS9 

—  .001 

—  .0012       o 

.09            .44         .17 

3853  ft  1086.     i3M  6"  251°,  slow  binary. 
3873  W.H.     8"  47"  140°. 


38S7  h  4734-     12" 
3886  limes.     13"" 


Il"246° 

?"  1 1 8°. 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


J57 


Ho. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3dt 

H/and  looAfi' 

Prob.  Errors. 
SEp.  loop.'  Sio 

Remarks. 

3851 

0           /               // 

+  84  20  13.57 

76-3 

-  14-059-  -674 

" 

n 
+  .OI2—     I 

//         //       // 

.09      .47    .18 

3852 

-4453  4I-96 

72-4 

—  14.064+.  424 

+  .27 

—  .020      o 

•ii      -53    -23 

Lowell,  4*0-5*?  5  <i",  binary 

3853 

+  48  32  13.82 

70.9 

—  14.029+.  212 

+  .05 

+  .015-     I 

.08      .38    .17 

47  Bootis  k  * 

3854 

+  36  5°  2S-49 

81.2 

-13.  994+.  250 

+  .07 

+  .015-     I 

.11      .55    .19 

3855 

+  25  1530.49 

67-3 

-14.177  +  .  282 

+  .09 

-.183+     I 

.07      .27    .14 

45  Bootis  c 

3856 

+  545627.97 

76.9 

-13.963  +  .185 

+  .04 

—  .001       o 

.10      .64    .23 

3857 

-5457  55-27 

75-7 

-13.968+.  471 

+  •35 

-  .030      o 

.13         .52      .22 

59  G  Lupi  * 

3858 

-23  36  13.36 

77-8 

-I3-96I  +  .372 

+  .18 

-  -037      o 

.09         .48      .l8 

3859 

+  2641    3.18 

66.8 

-I3-950+.277 

+  .09 

—  .029      o 

.09         .35      .18 

46  Bootis  6 

3860 

+  25  29  28.41 

66.0 

-13.905  +  .280 

+  .09 

+  .006      o 

.12        .6l      .29 

3861 

-6942    7.41 

79.1 

-13.885  +  .603 

+  .66 

-.005       o 

.14        .59     .23 

3  G  Trianguli  Aust 

3862 

—  48  21    27.40 

79.8 

-13.930+442 

+  .29 

—  .066—    I 

.09        .49     .18 

jDunlop.     27"  144° 

3863 

-48   21   49.37 

82.2 

~I3-9I3  +  -442 

+  .29 

—  .05  1  —    I 

.15         .64     .23 

jBrisb  5207 

3864 

-5143      7.30 

77-3 

-I3-925  +  .456 

+  -3i 

—  .069—    I 

.09        .42      .I? 

3865 

-44    7  21-44 

77.6 

-13.825  +  .430 

+  .26 

-  -°33      ° 

.13        .64     .24 

66  G  Lupi  e 

3866 

—  19  24  48.10 

71.4 

-I3-8I5  +  .367 

+  -I7 

—  .049       o 

.05      .23    .10 

i'  =  Br  1927 

3867 

+  1921    7.79 

77.0 

-I3-7°5  +  -296 

+  .09 

—  .002       o 

.IO        .59     .22 

3868 

—  19  16  16.20 

69.7 

-13.741  +  .368 

+  -I7 

-  -045     ° 

.11         .38     .19 

25  Librae  (i7) 

3869 

-2455  55-78 

85.0 

-13-774  +  ^75 

+  .18 

-.079-   3 

.10      .59    .18 

56  G  Librae 

3870 

+  49    4    9.26 

77.6 

—  13.  686+.  214 

+  -°5 

—  .027      o 

.11         .39     .17 

3871 

-31    845.40 

75-4 

-13.658+.  397 

+  .20 

—  .018       o 

.12         .46     .20 

69  G  Lupi  * 

3872 

-6031  56.50 

80.5 

-13.644+.  519 

+  .42 

-.005       o 

.14        .60     .23 

40  G  Circini 

3873 

-18    3  17.64 

68.0 

-13.656+.  367 

+  .16 

-.036-  I 

.14        .46     .24 

60  G  Librae  * 

3874 

-6035  10.15 

79-9 

-I3-635  +  .520 

+  .42 

—  .018       o 

•15        -58      .23 

3875 

-17  23  42.49 

71.6 

-13.630+.  367 

+  .16 

—  .017       o 

.11         .38     .18 

26  Librae 

3876 

—  63  14  26.62 

81.5 

-13.604+.  544 

+  -47 

—  .009       o 

-15        -63      -23 

3877 

+  8737    3-7i 

84-3 

-I3-567-2-i99 

+  .019—   I 

.04        .27      .08 

3878 

—  41    7  11.62 

79.1 

-13.  594+.  428 

+  .24 

—  .017      o 

.12        .55      .21 

72  G  Lupi 

3879 

-68  18  36.18 

74-8 

-I3-595  +  -598 

+  .61 

—  .024—    I 

•o?      -37    -15 

3880 

—  58  25  40.00 

79-9 

-i3-7"  +  -5°5 

+  •39 

-.148-  I 

.11      .47    .18 

3881 

+  383820.73 

66.2 

-13.604+.  251 

+  .06 

-  .047       o 

.12         .56      .27 

3882 

+  5  18  37.46 

77-7 

-  13-538  +  .  32<5 

+  -ii 

—  .009       o 

.06         -34      .13 

3  Serpentis 

3883 

+  2932    7.01 

72.2 

-I3.502  +  .275 

+  .07 

+  .O22—     I 

.08         .32      .15 

3884 

—  22      I   46.72 

83.0 

-I3-506  +  .379 

+  -I7 

.000      o 

.09         .45      .15 

64  G  Librae 

3885 

+  0443x-35 

69.6 

-13.484+.  334 

+  .12 

4-  .013-  I 

.08         .27      .13 

4  Serpentis 

3886 

-60    743-55 

84.0 

-I3-509+.522 

+  .41 

—  .015       o 

•15      -73    -24 

45  G  Circini  * 

3887 

+  33  41  15.66 

73-7 

-i3-575  +  -268 

+  .07 

—  .127+  I 

.04         .22      .09 

W.  H.  7"  105"  78°,  fixed 

3888 

-47  3°  25-49 

73-4 

-I3-492  +  .455 

+  .28 

—  .050      o 

.11         .42      .19 

* 

3889 

-47  3°  40-9  i 

78.8 

-13.482  +  .455 

+  .28 

—  .042       o 

.14         .56      .22 

76  G  Lupi 

3890 

-   9    o  50.76 

7°-3 

-13.468+.  354 

+  .14 

-.030-  I 

.02         .12      .05 

3891 

-2946  51.69 

73-8 

-13.449+.  399 

+  .19 

—  .018      o 

.09         .38      .I? 

78  G  Lupi/ 

3892 

-40  25  18.18 

82.5 

-13.421  +.431 

+  .24 

-  .032       o 

.11         .58      .19 

79  G  Lupi 

3893 

+  67  43  34.95 

78.1 

-13.  721  +  .083 

+  .07 

-.404+   4 

.05         .30      .11 

3894 

+  2056  17.39 

59-7 

-13.321  +  .  299 

+  .08 

-  -033       ° 

.11         .56      .30 

3895 

+  28  36.62 

63.0 

-13.798+.  343 

+  .12 

-.528+  3 

.06         .24      .13 

5  Serpentis  * 

3896 

-4017    7.79 

80.2 

-13.263  +  .435 

+  •23 

-  .032       o 

.10      .46    .17 

3897 

-47  5657-74 

84.1 

-13.490+.  430 

+  .28 

—  .276—  16 

.14         .77      .24 

85  G  Lupi  (v8) 

3898 

-60  17  49.03 

85.6 

-i3.236  +  .533 

+  .41 

-.023-  I 

.15         .77      .24 

46  G  Circini 

3899 

-47  3349-17 

78.8 

-13.348  +  .460 

+  .28 

—  .141—     2 

.12         -57      .22 

86  G  Lupi  (v1) 

3900 

-17  47  43.85 

71.4 

-I3-270+.378 

+  .16 

—  .067      o 

.09         .35      .16 

28  Librae 

3888  h  4733. 


i'/7  156°,  slow  ;  6*9  23"  130°. 


3895  2  1930. 


i"  39°. 


'58 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    IQOO 


Ho. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.  and  100  A  p 

Prob.  Errors, 
a  Ep.     100  p     a  10 

M 

h    m         s 

8                     S 

s 

s 

//             //          // 

3901 

y  Circini  m 

4.6 

15  IS  24.592 

84.2 

+  4-7433  +  -0759 

—  .004 

—  .0013+    i 

.18         .78       .27 

3902 

Br  1939 

6-3 

15  25.872 

74-9 

+  3-3474+  -0144 

—  .001 

+  .0018       o 

.08         .32       .14 

3903 

<f>  Lupi 

3-5 

15  27-525 

86.1 

+  3-7927+-029i 

-.003 

—  .0082       o 

.10        .64      .18 

3904 

Cord  20813 

5-8 

15  50.540 

96.8 

+  3-l637  +  -o102 

+  .OOI 

-.0051       o 

.14         I.O4         .20 

3905 

e  Lupi  m 

3-5 

15  53-329 

81.4 

+  4.0557  +  .0393 

—  .005 

—  .0015       o 

.11            .54         .I9 

3906 

1,6327 

7.2 

IS  53-510 

94-8 

+  4-3323  +  -o525 

-.005 

—  .0020      o 

.l6         I.I7         .24 

39<>7 

Br  1940 

5-7 

IS  56.493 

66.8 

+  3.  0498  +  .008  1 

+  .OOI 

—  .0036+   I 

.09            .34         .17 

3908 

o  Coronae  Bor 

5-8 

16    0.305 

73-5 

+  2.  4808+.  0017 

+  .003 

—  .0096+   I 

.08            .36         .16 

3909 

Pi  56 

7.8 

16  19.777 

69-5 

+  1.843  7  +  .0040 

+  .00  1 

—  .0002       o 

.15            .57         .28 

3910 

L6349 

4.8 

16  45.890 

82.8 

+  3.8i9o+.0294 

—  .004 

—  .0018      o 

.IO            .44         .16 

39" 

Radcl  3360 

5-9 

17    8.713 

77-2 

+  1.7626+.  005  1 

.000 

+  .0018       o 

.10            .56         .21 

39" 

Br  1954 

5-3 

17  10.415 

67.6 

—  0.0762  +  .0732 

—  .072 

+  .0044—    I 

.08            .36         .17 

3913 

Br  1941 

6.9 

17  27.037 

72.2 

+  3-3398+-oi42 

—  .001 

—  .0001       o 

.06            .28         .12 

39H 

Br  1943 

6-5 

17  39.071 

68.0 

+  2.8394  +  .0046 

+  .OO2 

.0000       o 

•T3        -51      -25 

3915 

Br  1946 

5-6 

17  48.324 

70.7 

+  2.4oi4  +  .ooi4 

+  .003 

—  .0041      o 

.12            .44         .21 

39i6 

v  Lupi 

5-7 

18  12.955 

86.6 

+  3.9026+.  0325 

—  .004 

—  .0038      o 

.14           .70        .21 

3917 

Pi  54 

6.0 

18  22.938 

77-5 

+  3-2863  +  .OI29 

.000 

—  .0026      o 

.09           .50        .18 

39i8 

Br  1945 

6-3 

18  34-331 

80.5 

+  3.0887  +  .0085 

+  .00  1 

+  .0045      o 

.08           .46        .16 

3919 

t  Librae 

5-2 

18  46.579 

68.1 

+  3.246o+.oi2i 

.000 

-.0054+  I 

.09           .34        .17 

3920 

L6336 

6.0 

18  50.242 

94-6 

+  5-  1746+.  1020 

—  .004 

—  .0045      o 

.21         I.4I         .30 

3921 

L636i 

4-7 

18  5I-034 

88.1 

+  3.8749+.03I2 

—  .005 

—  .0049      o 

.12            .62         .18 

3922 

Groomb  2221 

5-9 

18  55.38o 

62.4 

+  2.2I82  +  .OOI4 

+  .003 

—  .0004      o 

.18           .72         .39 

3923 

i/Coronas  Bor  m 

5-2 

19    4.386 

71.1 

+  2.4779  +  .ooi8 

+  .003 

+  .OIOI+     I 

.07            .26        .12 

3924 

p  Octantis 

5-8 

20  11.55- 

77-4 

+  13.  130-  +  1.404- 

+  .089-  +15 

.05            .40        .14 

3925 

1*6323 

5-7 

20  36.582 

87.4 

+  6.4371  +  .  2073 

+  .024 

—  .0003+  I 

.15           .8l         .24 

3926 

/a  Bootis 

4-4 

20  42.741 

74-o 

+  2.  2656+.  OOI4 

+  .003 

—  .0126       o 

.04           .18        .07 

3927 

Pi  74  m 

6.8 

2044.135 

67-3 

+  2.2668  +  .OOI4 

+  .003 

—  .0122      o 

.11           .48        .23 

3928 

y  Ursae  Min 

2-9 

20  53.050 

67-5 

-O.I273  +  .0739 

-.071 

—  .0026       o 

.03           .15         .07 

3929 

L6376 

5-7 

20  53.812 

89.8 

+  3.8299+.  0290 

—  .004 

—  .0002       o 

.13            .75         .20 

3930 

Radcl  3381 

6.0 

20  58.159 

77-9 

+  0-99I2  +  .0234 

-.015 

-.0025+  3 

.IO            .58         .21 

393i 

Br  1948 

S-5 

21      9.077 

80.7 

+  2.  7804  +.0040 

+  .OO2 

—  .0014      o 

.06            .36         .12 

3932 

Groomb  2230 

7-i 

21   53-458 

64.0 

+  1.9469  +.0033 

+  .002 

-.0039+  I 

•18        -75      -39 

3933 

Pi  81 

6.2 

22  22.414 

91.7 

+  2.3491  +  .0015 

+  .003 

—  .0086       o 

.13        .57      .16 

3934 

L  6380 

5-3 

22  26.572 

87-3 

+4.1549  +  .0417 

—  .OO7 

—  .0015      o 

.18        .80      .26 

3935 

Br  1949 

6.0 

22  36.931 

74-3 

+  3-377°+-OI48 

—  .OO2 

+  .OOII         O 

.04        .26      .10 

3936 

i  Draconis 

3-4 

22  42.246 

77.1 

+  i.3294+.oi32 

—  .OO7 

—  .0006      o 

.04            .22         .08 

3937 

L  6395  m 

7-5 

22  54-203 

79-4 

+  3-63H  +  .O22O 

-.003 

-  .0034      o 

.15            .84         .30 

3938 

Pi  83 

6.4 

23  20.798 

74-8 

+  2.5794+.  0024 

+  .003 

+  .0002       o 

.14            .78         .31 

3939 

Br  1952 

5-4 

23  35-139 

77.1 

+  3.0272  +  .0076 

+  .OOI 

-  .0055       o 

.10        .38      .16 

3940 

ft  Coronae  Bor 

3-7 

23  42.355 

78-7 

+  2.4732  +  .0019 

+  .003 

-•0133      o 

.04            .22         .08 

394i 

Br  1951 

7-5 

23  55-249 

70.8 

+  3.3866+.  0150 

—  .002 

-.0051       o 

.14            .46         .23 

3942 

Br  1953 

6.0 

25      1.807 

72.6 

+  3-3776  +  -QI46 

—  .002 

+  .OOII          O 

.09            .36         .l6 

3943 

Pi  96 

5-6 

26  51.981 

77.1 

+  3-4389  +  -0101 

—  .002 

—  .0014       o 

.10        .52      .20 

3944 

Br  1956 

5-7 

27   16.157 

66.7 

+  3.3829+.  0146 

—  .002 

—  .0009      o 

•io        -33      -i7 

3945 

v  '  Bootis 

5-3 

27  20.215 

80.0 

+  2.I542  +  .OO2I 

+  .003 

+  .0009      o 

.04            .22         .08 

3946 

Br  1961 

6.4 

27  33-I85 

69.4 

+  2.  7633  +  .0040 

+  .OO2 

+  .0003       o 

.14            .57         .27 

3947 

eTrianguliAust 

4.2 

27  33-861 

73-2 

+  5-4355  +  -II26 

-.013 

+  .0034+  3 

.11            .48        .21 

3948 

Br  1959 

5-8 

27  48.825 

70.9 

+  3.0873  +  .0085 

+  .OOI 

—  .0006       o 

.11            .38        .18 

3949 

v2  Bootis 

5-i 

28  12.160 

69.0 

+  2.I465  +  .OO22 

+  .003 

—  .0020       o 

.06           .36        .16 

3950 

y  Lupi 

2.8 

15  28  28.522 

74-8 

+3.  9824+.  0330 

-.007 

—  .0014       o 

.08           .34        .15 

3901  h  4757.     s^4-5™5  J"  81°,  slow  binary. 

3907  p  32. 


3905  Copeland.     3«6-6M  o'/8  280° 


172° 


CATALOGUE  OF  6l88  STARS  FOR  IQOO 


'59 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i'  and  ioo  A  p.' 

Prob.  Errors. 
SEp.  ioo|i.'  819 

Remarks. 

3901 

01             n 
-585738.20 

76.4 

-i3-233  +  -526 

+  •39 

—  .042       o 

//          //       // 
•13      -S3    -22 

* 

3902 

—  15    II     l6.47 

75-3 

-I3-I77  +  -373 

+  •15 

+  .OI2          O 

.08      .31    .13 

29  Libras  (ol,o) 

3903 

-35  S3  55-2° 

73-4 

-I3-283  +  .42I 

+  .21 

-.095-     I 

.12      .56    .24 

88  G  Lupi<£1 

3904 

-   5  27  50.09 

97.0 

-I3.I86+.353 

+  •13 

—  .O24—     I 

.14      I.I7      .21 

39<>5 

-44  1947-46 

76-3 

-I3-I82  +  .45I 

+  .26 

-  -°23      o 

.09         .39      .16 

* 

3906 

-51   22  37.58 

91.2 

-13.  182  +  .  482 

+  •31 

-  .023       o 

.13         .80      .20 

3907 

+     14  43.82 

67.0 

-13.  269+.  341 

+  .12 

-.113       o 

.08         .31      .l6 

6  Serpentis  * 

3908 

+  295843.38 

69-4 

—  13.210+.  278 

+  .07 

-.058-    i 

.07         .29      .14 

3909 

+  S03433-S7 

57-8 

-13.  123  +  .  209 

+  .04 

+  .007       o 

.12         .45      .26 

3910 

-362959.53 

76.9 

-13.  132  +  .  427 

+  .22 

-.031       o 

.11         .42      .l8 

92  G  Lupi  <£2 

39" 

+  52   19      6.70 

77-3 

-I3-075  +  -200 

+  .04 

+  .OOI          0 

.IO         .56      .21 

39" 

+  72    II    12.26 

66.0 

—  13.069—  .002 

+  .14 

+  .005       o 

.06         .29      .14 

ii  UrsaeMin 

3913 

-  14  46  38.05 

75-o 

-I3-055  +  -375 

+  •15 

+  .OOI          O 

.06         .29      .12 

30  Librae  (o2) 

3914 

+  12  55  31.21 

69.8 

-i3.o64+-320 

+  .09 

—  .022          0 

.11         .42      .20 

7  Serpentis 

3915 

+  33  17  28.79 

67-7 

-13.038  +  .  271 

+  .06 

—  .006      o 

.IO         .44      .21 

50  Bootis 

39i6 

-39  21  13.56 

82.0 

-i  3.  063  +  .438 

+  -23 

-  .058      o 

.12         .52      .19 

3917 

—  12      0  45.85 

77-4 

-I3.042  +  -370 

+  .14 

—  .048       o 

.08        .45      .17 

39i8 

-  o  39  57.01 

78.5 

-I3-OI6+-349 

+  .12 

-  -035     ° 

.08        .44     .l6 

8  Serpentis 

3919 

-   9  57  46.52 

70.2 

-I3-I27  +  .366 

+  .14 

-.159-  I 

.08        .33      .16 

3920 

—  64  10  44.22 

9J-5 

—  12.  987  +  .  580 

+  •49 

-  .023      o 

.17    1.08    .26 

9  G  Trianguli  Aust 

3921 

-382245.38 

81.4 

-1  2.  983  +.436 

+  .23 

—  .020      o 

.12         .50     .19 

97  G  Lupi  k 

3922 

+  39  56  17.20 

55-6 

—  12.  985  +  .  252 

+  .06 

—  .027      o 

•15      -58    -35 

3923 

+  303855-38 

67.8 

—  13.  146+.  282 

+  .07 

-.198+  I 

.06         .24      .12 

See  Appendix 

3924 

-84    7  54.79 

79-9 

-12.792  +  1.483 

+  .081+10 

.05         .38      .12 

3925 

-73    232.81 

84.2 

-I2.868+-726 

+  .84 

-  .023       o 

.12         .58      .19 

29  G  Apodis  K  l 

3926 

+  37  43  39-65 

68.1 

—  12.  760+.  258 

+  .06 

+.078-  I 

.04         .20      .09 

I/*2  Bootis  * 

3927 

+  37  41  52.85 

63-1 

-I2.743  +  .258 

+  .06 

+.093-  I 

.09         .37      .20 

3928 

+  72  ii  23.27 

67.7 

—  12.814—  .009 

+  .14 

+  .OI2          O 

.03         .13      .06 

Also  y2 

3929 

-36  24  59-9° 

85.0 

-I2.867  +  .435 

+  .22 

—  .041       o 

.13         .58      .20 

100  G  Lupi 

3930 

+  6341  53-87 

78.8 

—  12.934+.  116 

+  .05 

-.113       o 

.10        .59      .21 

3931 

+  15  46  46.03 

77-6 

-I2.835  +  -3I7 

+  .09 

—  .026       o 

.06        .33      .12 

9  Serpentis  rl 

3932 

+  47  24  46.60 

56-4 

—  12.800+.  224 

+  .05 

—  .041       o 

.13        .47      .28 

3933 

+  3441    2.56 

82.2 

—  12.  669+.  269 

+  .06 

+.057-  I 

.11         .41      .16 

3934 

-4623    8.87 

84.8 

-I2.737  +  .473 

+  .26 

—  .015       o 

.13         .63      .21 

102  G  Lupi 

3935 

—  l6  22      4.69 

74-i 

-I2-753  +  -386 

+  •15 

-  -043       ° 

.04      .28    .11 

32  Librae  {* 

3936 

+  59.1858.52 

73-8 

-12.695  +  .  155 

+  .04 

+  .009       o 

.03         .16      .O? 

3937 

—  28  31      6.42 

72.0 

-I2.737  +  .4I5 

+  .18 

-  .047       o 

.15         .8l      .34 

# 

3938 

+  25   26  58.04 

70.1 

—  12.  699+.  297 

+  .08 

-  -039       o 

.14         .64      .29 

3939 

+    2  II  21.72 

72.6 

-12.690+.  347 

+  .12 

—  .046—    I 

-to      .31    .15 

10  Serpentis 

3940 

+  29  27     0.84 

75-8 

—  12.  560+.  284 

+  .07 

+  .076-     2 

.04     .23   .09 

394i 

-i7    545-53 

68.0 

-12.620+.  388 

+  •15 

+  .OOI—     I 

.12         .42      .21 

33  Librae  (£2) 

3942 

-16  15  59.24 

74.2 

-I2.556+-389 

+  •15 

—  .010      o 

.09         .42      .l8 

34  Librae  £3 

3943 

-19  1947.82 

77-o 

-I2.463  +  -398 

+  .16 

-  -043      o 

.10      .47    .18 

3944 

-  16  30  49.64 

60.2 

-I2.4I7  +  .393 

+  •15 

-  .025       o 

.09         .28      .l6 

35  Librae  {' 

3945 

+  41.1025.59 

76.4 

-12.403  +  .  252 

+  .06 

—  .015       o 

.04         .24      .09 

3946 

+  16-23  41-65 

64-5 

-I2-389+.322 

+  .08 

—  .016      o 

.13         .46      .25 

12  Serpentis  r2 

3947 

-65  5850.27 

76.2 

—  12.444+.  629 

+  -S2 

—  .072       o 

.10      .43    .18 

3948 

-  05049.77 

74-7 

—  1  2.  404  +.360 

+  .12 

—  .049      o 

-09      -34    -IS 

ii  Serpentis  A1 

3949 

+  41  14  18.94 

72.8 

-i2-343  +  -252 

+  .05 

—  .015       o 

.06      .36    .15 

3950 

-404950.17 

73-o 

-i  2.345  +  .463 

+  -23 

-  .036      o 

.08      .32    .14 

* 

3927  2  1938.     7?3-7«?9  i"  ±,  binary,  250  yrs.  ±.  393?  P  i"4-     8M-8»s  o'/7  322°;  9*5  9"  5°. 

3950  h  4786.    3*5 -3"!1;  o'/6  91°,  binary? 


i6o 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch/ 

An.  Var.  and 
Sec.  Var. 

3dt 

M.  and  100  A  p 

Prob.  Errors. 

a  Ep.     ioo(i     aio 

M 

b    m         s 

s               s 

s 

s 

//             a          a 

3951 

Br  1958 

5-4 

15  28  33.466 

78.2 

+  3-6272  +  .O2II 

—  .004 

+  .0007       o 

.12            .52          .20 

3952 

Br  1960 

4-9 

28  42-673 

76.2 

+  3-2734+-oii9 

—  .001 

+  .O2O2+     2 

.05        .24      .10 

3953 

6  Coronae  Bor 

4-3 

28  53.820 

7-56 

+  2.4l8o+.  0020 

+  .003 

—  .0020       o 

•°5        -33      -13 

3954 

L  6424 

4.8 

29      O.O22 

83-4 

+  4-ii47  +  .038i 

—  .OOg 

—  .0006       o 

.16        .98      .31 

3955 

PulkH  2237 

5-3 

29      2.436 

85.0 

+  3-2358  +  -oii2 

—  .OOI 

—  .OOIO          O 

.11        .52      .17 

3956 

L  6390 

6.1 

29  IS-637 

83-6 

+  6.5533  +  .2034 

—  .OO6 

-.0037       o 

.18        .75      .27 

3957 

L  6427 

5-7 

29  21.036 

90.8 

+  4.09I5  +  .0372 

-.008 

—  .OO47          ° 

.20      1.05      .28 

3958 

Pi  136 

6.0 

29  3J-384 

80.3 

+  O.83I5  +  .0262 

-.018 

—  .0170      o 

.08        .51      .17 

3959 

y  Libra 

4.1 

29  S5-86S 

75-3 

+  3-350I  +  .OI36 

—  .OO2 

+  .0045       ° 

.04            .21          .08 

3960 

o  Serpentis  N  * 

4.2 

3°    i-5i9 

70.4 

+  2.  8641  +  .0052 

+  .OO  I 

—  .0046      o 

.07            .38         .16 

396i 

a  Coronae  Bor 

2.2 

30  27.232 

66.7 

+  2.539I  +  .0024 

+  .OO2 

+  .0090      o 

.02            .11          .06 

3962 

t>  Librae 

3-7 

3057-ii4 

79-2 

+  3.6325  +  .0209 

—  .OO4 

—  .0007       o 

.09            .39         .15 

3963 

Br  1974 

6.3 

31    0.893 

68.0 

+  2.  72l6+.  0038 

+  .OO2 

-  -0053       o 

.12             .51          .25 

3964 

a  Lupi 

4-3 

31  18.860 

85.6 

+4.0249+.  0341 

-.008 

—  .0144—    I 

.14            -84         .25 

3965 

L  6437 

5-5 

31  23.492 

92-3 

+4.4342  +  .05  13 

—  .OI2 

—  .0036       o 

.16      i.oo      .24 

3966 

Br  1971 

6.8 

31  25.760 

69.0 

+  3-°745  +  -oo82 

.OOO 

—  .0021       o 

.12           .52        .25 

3967 

fi.  Coronae  Bor 

5-5 

3i  34-737 

63.0 

+  2.2OIO+.OO2I 

+  .002 

+  .0024      o 

.11           .36        .20 

3968 

Pi  126 

5-6 

31  41.207 

68.6 

+  2.8797  +  .0055 

+  .OOI 

+  .OO2O+     I 

•15           -63        -30 

3969 

Br  1976 

7-i 

31  50.201 

73-7 

+  2-7773  +  -0042 

+  .OO  I 

—  .0006      o 

.09           .36        .16 

3970 

Br  1977 

6.1 

31  52.752 

68.7 

+  2.  7617  +  .0040 

+  .OOI 

+  .0044      o 

•13       -57      -27 

3971 

Yarn  6539 

6.0 

3i  55-i83 

96.8 

+  3.5i89+.oi78 

-.003 

—  .0022      o 

.12            .99        .18 

3972 

Groomb  2254 

7-7 

32  I4-702 

64.2 

+  I-7973  +  .0051 

.OOO 

—  .0006      o 

.20           .69         .37 

3973 

T  Librae 

3-7 

32  30-758 

76-5 

+  3-6742  +  .0220 

-.005 

—  .0018      o 

.09           .39         .16 

3974 

Br  1975 

5-7 

33    9-°9° 

80.4 

+  3-4473  +  -OI56 

-.003 

+  .0066+   I 

.09           .51         .17 

3975 

Paris  19426 

7.0 

33  16.056 

94-6 

+  3.2334+.OHO 

—  .001 

+  .0015       o 

.12             .90         .19 

3976 

Dpt  1736 

6-7 

33  16.153 

86.0 

+  3.2334+.oiio 

—  .001 

+  .0016       o 

.12            .45         .16 

3977 

Groomb  2257 

6.0 

33  22.784 

87.4 

+  I-5393  +  -oo87 

-.003 

—  .0041+   I 

.13            .50        .17 

3978 

L  6463 

4-7 

33  24-814 

80.7 

+  3-7989+-0255 

—  .006 

+  .OOIO         O 

.09           .48         .17 

3979 

<f>  Bootis 

5-4 

34  14-102 

76-3 

+  2.I538+.O022 

+  .OO2 

+  .0055-  I 

.05            .28         .11 

398o 

L  6464 

4.8 

34  18.798 

82.6 

+  4.I057  +  .037I 

—  .OIO 

—  .0172+     2 

.11            .68         .22 

398i 

Br  1978 

5-2 

34  22.075 

75-6 

+  3-5383  +  -0180 

—  .OO4 

—  .0016       o 

.07      .32     .13 

3982 

0  Ursae  Min 

5-4 

34  22.538 

74-4 

-1.8674+.  1898 

-•195 

-.0137+  3 

.05            .30         .12 

3983 

Groomb  2275 

6.9 

34  58-9I9 

67.4 

-3-6572  +  .3739 

-•447 

-.0899+  8 

.08            .38          .18 

3984 

Groomb  2258 

7-i 

34  59-401 

83.1 

+  2.0340+.  0030 

+  .00  1 

—  .0001       o 

.12            .44         .17 

3985 

Pi  153 

6.0 

35    4-029 

68.8 

+  1.9194+.  0042 

.000 

+  .0082+  I 

.IO            .46         .22 

3986 

Groomb  2276 

7-7 

35  "-628 

71.8 

-3.6568+.  3737 

-.446 

-.0840+  7 

.09            .52          .22 

3987 

L  6470 

6-3 

35  22.881 

94-8 

+  4.3  183  +  .0445 

-.013 

—  .0027       o 

.l6         I.I7          .24 

3988 

£  2  Coronae  Bor 

5-i 

35  36-720 

73-3 

+  2.2589+.OO22 

+  .002 

—  .0009      o 

.05            .30         .12 

3989 

L  6486 

5-4 

36-  8.213 

85.6 

+  3.8857  +  .0280 

-.008 

—  .0048       o 

.13            .63          .20 

3990 

K  Librae 

5-i 

36  11.007 

72.6 

+  3-4492  +  .OI57 

—  .004 

—  .0032+   I 

.06            .26         .11 

3991 

Br  1980 

4-9 

36  iS.SSS 

81.3 

+  3-8io5  +  .0255 

—  .007 

—  .0026       o 

.12            .62          .21 

3992 

Br  1983 

6.2 

36  23.255 

77-7 

+  2.  7565  +  .0041 

+  .001 

+  .0017       o 

.09            .40         .l6 

3993 

X  Serpentis 

5-3 

37    5-020 

81.0 

+  2.8210+.  0048 

+  .OOI 

+  .0025       o 

.11             .38         .16 

3994 

i  Serpentis  m 

4.6 

37    5-48i 

69.1 

+  2.6725  +  .0036 

+  .OO2 

—  .0051       o 

.09            .34         .16 

3995 

Br  1988 

6.1 

37  24.688 

68.2 

+  2.6974+.  0036 

+  .OO2 

—  .0056      o 

.10        .36      .18 

3996 

Br  1987 

6.8 

37  48.353 

61.1 

+  3-3570+-OI34 

-.003 

—  .OOII+     I 

.12            .64         .34 

3997 

1}  Librae 

5-7 

38  26.771 

70-3 

+  3.3688  +  .oi36 

-.003 

—  .0027       o 

.06            .26         .12 

3998 

y  Coronae  Bor 

3-8 

38  32.593 

72.2 

+  2.5i88  +  .oo26 

+  .O02 

-  -0075       o 

.05            .28         .12 

3999 

L  6477  m 

5-9 

38  45-970 

87.7 

+  5.4231  +  .  1015 

—  .028 

—  .0019+   I 

.20        .88      .28 

4000 

$  Serpentis 

6.1 

15  39    o.ooo 

64.0 

+  3.oi26+.oo73 

+  .OOI 

-.0057+  I 

.14      .51     .27 

3954  h  4788.     8M  2"4  359°. 

3978  Br  1972.     n9  G  Lupi  <}/,  3  Lupi  y,  etc. 


3956    8M  fols.  2 
3983-6  S  1972. 


4,  S  89". 
31"  81° 


CATALOGUE   OF   6 1 88   STARS   FOR    IQOO 


161 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3flt 

(i'and  looAp.' 

Prob.  Errors. 
SEp.  ioo(i'  Sio 

Remarks. 

3951 

0           t               ft 

-27  42  36.69 

75-3 

ft                       ft 

-12.349+423 

It 

+  .18 

// 

-  -045      o 

//         //       it 

.12      49    .21 

36  Librae 

3952 

-   9  43  18.87 

73-6 

-I2.54I  +  .384 

+  -I3 

-.248+    2 

.06      .26    .11 

37  Librae 

3953 

+  31  41  47.26 

76.0 

—  12.  306+.  284 

+  .06 

—  .026      o 

.05         .32      .12 

3954 

-4437  24.74 

79.6 

-I2-3I2  +  .479 

+  •25 

-  -039      o 

.13         .73      .26 

114  G  Lupi  d* 

3955 

-   8  50  49.17 

83.0 

-I2.294+.378 

+  •13 

—  .024      o 

.IO         .50      .17 

3956 

-73    658.49 

82.4 

-i2.273  +  -76i 

+  .84 

—  .018      o 

•IS         -63      -23 

33  G  Apodis  <c2  * 

3957 

-44    341-99 

85.2 

—  12.  296  +  477 

+  .25 

-  .047      o 

•15      -73    -24 

115  G  Lupi 

3958 

+  64  32  41.82 

74.6 

—  I2.i6i  +  .o99 

+  .06 

+  .076—     2 

.08      .39    .16 

3959 

-14  27  22.03 

72.0 

-I2.2IO+.393 

+  .14 

—  .OOI          0 

.05         .22      .IO 

3960 

+  1052  23.00 

67.8 

-I2.I94+.336 

+  .09 

+  .008      o 

.06         .27      .13 

See  Appendix 

396i 

+  27    3    3-74 

66.1 

—  12.  274+.  300 

+  .07 

—  .IO2+     I 

.02         .IO      .05 

3962 

-27  48  13.97 

75-o 

-12.143  +  427 

+  .18 

—  .005       o 

.08         .34      .14 

39  Librae,  etc. 

3963 

+  17  59  18.12 

64.0 

—  12.  l62  +  .  32O 

+  .07 

—  .029—    I 

.11         48      .25 

15  Serpentis  r3 

3964 

-42  14  20.83 

78.8 

-12.051  +  471 

+  .24 

+  .o6l—     2 

.11         .52      .20 

i2M  12"  27° 

3965 

-52    233.95 

88.9 

-12.  149+.  520 

+  -30 

—  .042      o 

.13         .73      .20 

2  G  Normae 

3966 

-  o  13  47.07 

70.6 

—  I2.I26+-362 

+  -ii 

—  .022       o 

.IO         42      .19 

14  Serpentis  (A1) 

3967 

+  39  20  31.30 

53-4 

—  I2.IOO+.26l 

+  .05 

—  .006      o 

.10      .37    .23 

3968 

+  IO  20  40.36 

59-6 

—  12.  222  +  .  340 

+  .09 

-.136      o 

.12         .52      .29 

1  6  Serpentis 

3969 

+  15   25  54.64 

69.8 

-I2.083  +  -328 

+  .08 

—  .007       o 

.08         .31      .15 

17  Serpentis  r* 

3970 

+  l6  27     O.22 

61.4 

—  i2.o8i  +  .327 

+  .08 

-.008      o 

.11         .50      .27 

18  Serpentis  r5 

3971 

-22  4835.84 

94-8 

-12.156+414 

+  .16 

-  .086      o 

•13      -93    -19 

3972 

+  50     I  48.13 

56.8 

—  12.067  +  .  214 

+  .04 

—  .020      o 

.14      .51    .30 

3973 

-29  2655.85 

73-3 

—  12.062  +  433 

+  .18 

-  -033      o 

.10      .39    .17 

40  Librae 

3974 

-18  58  21.50 

77-6 

—  12.072  +  409 

+  •15 

-.088+  I 

.08      40    .15 

41  Librae 

3975 

-   8  28    0.19 

93-8 

-i  i.  997  +  .383 

+  .12 

—  .02  1      o 

.11      I.OI      .20 

1^           f                      ffOOQ 

2,  1962.     12    188 

3976 

-   8  27  47.97 

72.8 

-H.999+.383 

+  .12 

-  .023      o 

.10      .31    .15 

3977 

+  545737-8° 

86.4 

—  n.  984+.  184 

+  .04 

—  .016      o 

.13     42    .16 

3978 

-34    5    7-79 

78-5 

-11.975  +  450 

+  .19 

—  .009      o 

.11         .52      .20 

* 

3979 

+  40-40  43-79 

73-o 

-n.86i  +  .2s8 

+  -05 

+  .047+  I 

.06         .28      .12 

398o 

-44  19  48.19 

77-o 

-12.168+485 

+  .24 

—  .266—     2 

.10      49    .19 

121  G  Lupi  g 

398i 

-23  2935.20 

73-o 

—  11.926+420 

+  .16 

—  .028       o 

.07         .27      .12 

42  Librae 

3982 

+  77  40  56.68 

66.5 

—  11.892—  .216 

+  40 

+  .OO6—     2 

.06         .24      .12 

3983 

+  80  46  49.37 

63-2 

-11.739-436 

+  .87 

+  .116—  ii 

.08         .35      .18 

See  Groomb  2276* 

3984 

+  43  55  47-87 

74.8 

-11.859+.  244 

+  .04 

—  .004      o 

.11         .34      .16 

3985 

+  47    737-31 

62.1 

-H.987  +  .232 

+  .04 

-.138+  I 

.IO         .36      .20 

3986 

+  80  46  54.28 

67.6 

-11.730-435 

+  .87 

+  .IIO—  IO 

.11         .63      .29 

See  Groomb  2275  * 

3987 

-49  10    3.58 

91.0 

-ii.86o+.5i3 

+  .28 

-  -033       o 

.13         .79     .20 

5  G  Normae 

3988 

+  3657  37-09 

69.6 

—  11.819+.  271 

+  .05 

—  .008       o 

.05         .27      .12 

See  Appendix  * 

3989 

-37    6  13.92 

83.2 

-11.797  +  463 

+  .20 

-.023-  I 

.11         .53      .18 

124  G  Lupi  h 

3990 

-19  21  17.39 

69.8 

—  11.889+412 

+  -I5 

—  .119      o 

.06        .25      .12 

399i 

-3423  21.73 

79-3 

-11.798+455 

+  .19 

-  -037       o 

.13        .64     .24 

4  Lupi  ^r2;  also  125  G 

3992 

+  16  20  49.27 

70.0 

-11.778+  .331 

+  .08 

—  .022       o 

.09        .37      .17 

19  Serpentis  r" 

3993 

+  13  10    5.10 

75-4 

-II.73I  +  .339 

+  .09 

-  .025      o 

.10      .34    .16 

3994 

+  I9593I-95 

7o-5 

—  ii.76i  +  .32i 

+  .07 

-•055-  I 

.07         .26      .12 

Hussey.     s"?4-5™4  o'/2  70° 

3995 

+  18  46  56.68 

65.6 

-i  i.  640+.  324 

+  .07 

+  •043-     I 

•09      -33    -17 

22  Serpentis  r7 

3996 

-14  43  21.22 

63.0 

-11.765  +  403 

+  .14 

—  .no      o 

.12         .6l      .31 

3997 

-IS   21   15.57 

67.9 

—  11.687  +  405 

+  .14 

—  .078       o 

.06         .27      .13 

3998 

+  26  36  44.00 

68.9 

-II.572  +  .303 

+  .07 

+  .030-  I 

.05         .25      .11 

* 

3999 

-65    7  43.16 

83.1 

—  1  1.  632  +  .650 

+  •49 

-  -045       o 

.15         .67      .23 

136  Trianguli  Aust  * 

4000 

+     2   5°      8.65 

62.4 

-H.720+.363 

+  .10 

—  .150—    I 

.12         .52      .28 

3988  2  1965. 


303°;  see  Appendix. 

3999  Riimk. 


3998  2  1967. 
i'.'8  153°. 


7*|lo  <  i",  binary,  80  yrs.  ±. 


102 


PRELIMINARY   GENERAL  CATALOGUE   OF   STARS   FOR    1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

p.  and  100  A  n 

Prob.  Errors. 
aEp.     ioo(i    a  10 

M 

h    m         s 

S                     8 

s 

8 

//            //         // 

4001 

o  Serpentis 

2.7 

15  39  20.517 

68.0 

+  2.  9522  +  .OO6l 

+  .00  1 

+  .0090       o 

.02        .11       .05 

4002 

Capes,  2831 

7.8 

39  S2-645 

78.4 

+  3-5632  +  .oi8i 

-.005 

—  .0056      o 

.11         .78      .27 

4003 

•a  Coronas  Bor 

5-8 

40    2.817 

84.6 

+  2.  363  1  +  .0024 

+  .002 

—  .0028       o 

.12           .40         .l6 

4004 

Groomb  2270 

5-6 

40    7-544 

74-7 

+  1.6295  +  .0072 

—  .OO2 

—  .0064      o 

.10        .39      .17 

4005 

Br  1993 

6-3 

40    9.581 

68.2 

+  2.  7235  +  .0039 

+  .OO2 

—  .0018       o 

.IO           .36         .18 

4006 

L  6514 

5-8 

40  20.897 

83.8 

+  3-8207  +  .025I 

-.008 

—  .0012      o 

.14           .78        .25 

4007 

Paris  19594 

S-8 

40  26.805 

91.6 

+  2.9633  +  .0064 

+  .OOI 

+  .0016       o 

.13        .66      .18 

4008 

Br  1992 

5-6 

40  55-225 

75-i 

+  3.  0985  +  .0084 

.000 

—  .0024      o 

.13        .44      .20 

4009 

/3  Serpentis 

3-5 

4i  34-326 

76.9 

+  2.  7673  +  .0043 

+  .OOI 

+  .0049      o 

.04        .18      .07 

4010 

A.  Serpentis 

4-5 

4i  35-339 

67.8 

+  2.  9085  +  .0060 

+  .OOI 

—  .0158      o 

.09        .39      .19 

4011 

L  6520 

6.0 

42  31-767 

86.0 

+  4.5270+.  0508 

-.018 

—  .0041       o 

.18        .87      .28 

4012 

v  Serpentis 

6.0 

42  38-641 

67-3 

+  2.  7847  +  .0045 

+  .OOI 

—  .0038      o 

.13        .69      .32 

4013 

L  6524 

5-9 

43  20-375 

87.6 

+  4.6384+.os53 

—  .020 

+  .0013+  I 

.18        .94      .28 

4014 

Br  1999 

S-8 

43  42-479 

62.6 

+  3.  1378  +  .0089 

—  .001 

—  .0025      o 

.13        .40      .23 

4015 

K  Serpentis 

4-2 

44  14.288 

81.6 

+  2.  6992  +  .0039 

+  .OO2 

—  .0032+   I 

.04        .26      .08 

4016 

H  Serpentis 

3-4 

44  24.040 

77-7 

+  3.  1270+.  0088 

—  .OOI 

-  .0059      o 

.04           .21         .08 

4017 

R  Coronae  Bor 

Var. 

44  27.219 

68.0 

+  2.  47  1  2  +  .0026 

+  .OO2 

+  .0003       o 

-12        -75      -34 

4018 

xLupi 

4.1 

4436.172 

79-7 

+3.8014+.  0237 

-.008 

—  .0007       o 

.09      .42     .15 

4019 

Br  2000 

4.8 

44  57-78o 

76.0 

+  3-5994+  -0183 

-.005 

—  .0017      o 

.09      .39     .16 

4020 

Groomb  2  292  m 

7.2 

45    6.976 

75-i 

-3-4429+  -3235 

-.316 

-.0145-     2 

.09        .46      .19 

4021 

Pi  198 

5-3 

45    8.424 

81.5 

+  0.9043  +  .0224 

—  .014 

+  .0052+  I 

.05        .36      .11 

4022 

Pulk«  2278 

6.1 

45  12.988 

72-4 

+  I.4446  +  .OIOO 

—  .OO4 

+  .OOI2         O 

.11       .64     .27 

4023 

*)  Serpentis 

5-4 

45  14-605 

60.9 

+  3.0260+.  0072 

.OOO 

+  .OO22         O 

.15     -52    .30 

4024 

8  Coronae  Bor 

4-7 

45  24.021 

71.8 

+  2-5I52  +  .OO29 

+  .O02 

-.0055+     I 

.07      .36     .16 

4025 

K  Trianguli  Aust 

5-4 

45  36.497 

77-2 

+  5.8685  +  .1240 

--045 

—  .OOl8+    I 

.14      .70    .27 

4026 

e  Serpentis 

3-7 

45  49-834 

74-6 

+  2.9875  +  .0065 

.OOO 

+  .0083      o 

.03      .18     .07 

4027 

L  6562 

6.8 

46      2.  22O 

79-3 

+  3.6927  +  .0209 

—  .OO7 

-.0123      o 

.15      .72    .27 

4028 

Br  2004 

5-2 

46      3.024 

71.6 

+3-i204+.oo87 

—  .OOI 

—  .0062      o 

.10        .39      .18 

4029 

Paris  19722 

6.6 

46      3.185 

95-6 

+  3-3443  +  -01  25 

-.003 

—  .0025      o 

.12        .86      .17 

4030 

ft  Trianguli  Aust 

2.8 

46   19.676 

71.2 

+  5.  2436+.  0872 

-•033 

—  .0296+   7 

.11        .40      .19 

4031 

p  Serpentis 

5-o 

46  52-385 

63.8 

+  2.6337  +  .0034 

+  .OO2 

-  -0035      o 

.09        .36      .19 

4032 

K  Coronas  Bor 

5-o 

47  27-830 

71.4 

+  2.  2591  +  .0032 

+  .OO2 

—  .0011+  3 

-08        .33      .15 

4033 

A.  Librae 

5-1 

47  3I-662 

74-6 

+  3-4758  +  .OI5I 

-.005 

—  .0010      o 

.06            .30         .12 

4034 

Br  2006 

4-7 

47  36-408 

70.8 

+  3-5942  +  .QI78 

—  .OO6 

—  .0009       o 

.09            .38         .17 

4035 

£  Ursae  Min 

4-5 

47  37-353 

66.0 

—  2.2338+.2OOI 

--I73 

+  .0080—     2 

.03            .15         .07 

4036 

L  6550 

6.0 

47  40.123 

86.8 

+  5.o22i  +  .o7i9 

—  .029 

—  .0044+    2 

.18            .94         .28 

4037 

Br  2009 

5-6 

47  55-401 

77-9 

+  3-5742  +  .QI73 

—  .OO6 

—  .0026      o 

.IO            .46         .l8 

4038 

Pi  192 

5-5 

47  58-667 

83-4 

+  3-562O+.OI7I 

—  .005 

—  .0019      o 

.IO            .62         .20 

4039 

0  Librae 

4.4 

48    7.826 

65-5 

+  3.4ioo+.oi34 

-.003 

+  .0069—     I 

-06            .30         .15 

4040 

Br  2016 

6-3 

48  32.578 

68.7 

+  2.  7915  +  .0054 

+  .OO  I 

-.0111+  3 

.10       .38      .18 

4041 

Br  2012 

6.2 

48  39.221 

82.6 

+  3-5937  +  -oi77 

—  .006 

—  .0010       o 

.11            .62         .20 

4042 

X  Herculis 

4-7 

49  13.063 

65-5 

+  2.0735  +  .0018 

+  .OOI 

+  .0401—   8 

.07            .27         .14 

4043 

Br  2015 

6.2 

49  13.506 

71.8 

+  3.4598+.  0146 

-.005 

—  .0017       o 

•  13        -54      -24 

4044 

Br  2014 

6.0 

49  27.367 

81.1 

+  3.6i68  +  .oi82 

—  .006 

—  .0038      o 

.10        .51      .18 

4045 

L6559 

6.0 

49  47-520 

82.7 

+  5-4599+  -0939 

—  .041 

—  .0007+   i 

.18        .78      .28 

4046 

Br  2019 

6-5 

49  50.316 

64.2 

+  2.8962  +  .0056 

+  .OOI 

—  .0002       o 

.12            .48         .25 

4047 

Groomb  2288 

6.2 

49  56.958 

59-4 

+  1.3919+.  0105 

-.005 

—  .0019—    i 

-13        -57      -32 

4048 

Pi  212 

6.0 

50  10.180 

65.0 

+  2.6432  +  .0035 

+  .OOI 

—  .0052      o 

.12            -57          .28 

4049 

I1  Lupi 

5-4 

So  29.753 

83-7 

+  3.  8261  +  .0234 

—  .009 

+  .0018      o 

.11        .66      .21 

4050 

t2  Lupi 

6.0 

15  50  30.425 

82.9 

+  3.8269+.0234 

—  .009 

+  .0026      o 

.14        .86      .27 

4013    9^5  fols.  o?7  N  19". 


4020  2  1989. 


<  o'/7,  binary,  100  yrs. 


CATALOGUE  OF  6l88  STARS  FOR  IQOO 


I63 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H/  and  i  oo  A  fi' 

Prob.  Errors. 
SEp.  100  |x'  Sio 

Remarks. 

4001 

0           /               // 

+  6  44  24.14 

66.6 

//                      // 

-I  i.  508  +  .358 

// 

+  .10 

// 

+.038+  i 

//          //       // 
.02       .11     .05 

4002 

-2424    5.79 

74-9 

-H-575  +  .430 

+  .16 

-.068-  i 

.12        .84      .32 

4003 

+  32  49  52.81 

74-7 

—  n.  520+.  287 

+  .05 

—  .025       o 

.11         .34     .16 

4004 

+  524034.73 

68.0 

-11.467  +  .  199 

+  .04 

+  .O22—     I 

.09        .32      .16 

4005 

+  i?  3442-54 

65.0 

-H.50I  +  .330 

+  .07 

—  .014       o 

•°9      -33    -17 

26  Serpentis  T* 

4006 

-3422    9.66 

80.0 

—  1  1.  495  +  .462 

+  .19 

—  .022       o 

.14      .73    .26 

128  G  Lupi 

4007 

+  5  45  39-32 

94-8 

-H.489+-359 

+  .10 

—  .023      o 

.13      .88    .19 

4008 

-    i  29  27.55 

75-o 

-H.473  +  .376 

+  .11 

—  .041      o 

.10      .37    .16 

25  Serpentis  A* 

4009 

+  1544    4.48 

74-5 

-i  i.  442  +  .338 

+  .08 

-.057+  I 

.04         .22      .09 

51970.    9M3i"265° 

4010 

+   7  39  58-7° 

66.5 

-H.448  +  -352 

+  .09 

—  .064—     2 

.09         .34      .18 

4011 

-52  54    7-4i 

81.9 

-II-355  +  -549 

+  -30 

-  .039      o 

.14         .65      .23 

12  G  Normae 

4012 

+  14  25  24.43 

61.4 

-ii.28i  +  .339 

+  .08 

+  .027      o 

.14         .63      .34 

4013 

-5445    2.40 

84-5 

-i  i.  293  +  .565 

+  .32 

-  -°35       o 

-14     -73    -23 

14  G  Normae  * 

4014 

-   3  30  43-63 

66.2 

-H.227  +  .383 

+  .11 

+  .004      o 

.11         .43      .22 

30  Serpentis 

4015 

+  18  27    0.61 

77-9 

-H.294+.33I 

+  .07 

—  .101          0 

.04         .24      .09 

4016 

-  3    7  27-59 

80.  i 

—  H.209+-382 

+  .ii 

—  .028-  I 

.04         .27      .09 

4017 

+  28  27  47.86 

63.0 

-i  1.195  +  -3°4 

+  .06 

—  .018       o 

.11         .64      .32 

6M  to  13" 

4018 

-33  J9  21-08 

76.0 

-H.I94+.465 

+  .19 

—  .028       o 

.09         .41      .l6 

4019 

-25  2650.57 

73-5 

-II.I75  +  .44I 

+  .16 

-  -035       o 

.08         .33      .14 

i  Scorpii  b 

4020 

+  80  17  48.26 

61.7 

-11.093-.  415 

+  .78 

+  .036-     2 

.09         .38      .20 

18  Ursa  Min  * 

4021 

+  62  54  30.87 

78.6 

—  11.  187  +  .  115 

+  .05 

—  .060+     I 

.05         .25      .09 

4022 

+  554058.33 

72.8 

—  n.ii9  +  .i8o 

+  .04 

+  .003       o 

.11         .60      .25 

4023 

+  2  30    5.56 

63-9 

-H.I7S  +  .372 

+  .10 

-  -055       o 

.12         .54      .28 

4024 

+  26  22   27.42 

67.8 

—  n.i89  +  .309 

+  .06 

-.081-  I 

.06         .28      .13 

4025 

-68  18  17.23 

76.2 

-ii.  113  +  .  717 

+  .58 

—  .020      o 

.12         .56      .22 

4026 

+  4  46  42-72 

75-3 

—  H.O2O+-369 

+  .10 

+.057+  I 

.03         .19      .07 

4027 

-293459-87 

70-5 

-ii.i67  +  .452 

+•17 

-'.IDS-     2 

.13         .63      .28 

133  G  Lupi 

4028 

—   2  47  16.67 

69.8 

-i  i.  095  +  .383 

+.11 

-.034-     I 

.08         .34      .l6 

36  Serpentis  b 

4029 

-13  49  54.82 

92.8 

—  11.087  +  .  411 

+•13 

—  .026      o 

.13         -77      .19 

4030 

-63    7  18.65 

73-9 

-H.429+.639 

+  •43 

-.388-   4 

.08         .40      .17 

4031 

+  21  1641.53 

55-5 

-H.OOI  +  .325 

+  .07 

.000       o 

.08         .26      .16 

4032 

+  3558    2.52 

64-5 

—  ii.  322  +  .  280 

+  .05 

-  -364      o 

.07         .29      .15 

4033 

-1952    5-47 

69.9 

—  10.987  +  .429 

+  .14 

-  -034      o 

.06         .26      .12 

4034 

-  25    i  42.93 

68.6 

-10.979+.  444 

+  •15 

—  .032       o 

.08         .31      .15 

2  Scorpii  A* 

4035 

+  78    6    7.92 

66.6 

—  10.949—  .267 

+  .46 

-.003+  I 

.03         .12      .06 

4036 

—  60  ii    6.28 

84.2 

—  11.031  +  .  618 

+  .38 

-.088       o 

.14        .77      .24 

igGTrianguli  Aust 

4037 

—  24  14    6.61 

79-5 

-10.953  +  .441 

+  -IS 

—  .029       o 

.10      .49    .18 

4  G  Scorpii 

4038 

-  23  40  48.91 

84.1 

-10.959  +  .440 

+  •15 

-  -039       o 

.IO         .49      ,l6 

5  G  Scorpii 

4039 

—  16  26    9.50 

66.0 

—  10.789+.  422 

+  •13 

+  .120+     I 

.06         .23      .12 

4040 

+  13  3034-31 

66.7 

-i  i.  441  +  .345 

+  .08 

-•563-     I 

.08         .35      .17 

39  Serpentis 

4041 

-24  56  50.29 

79.6 

—  10.901  +  .444 

+  •15 

-.031       o 

.IO         .49      .l8 

3  Scorpii 

4042 

+  42  43  52.25 

65.6 

—  IO.2IO+.264 

+  .04  . 

+  .619+   5 

.07         .27      .14 

4043 

—  19    5  16.26 

7i-3 

—  10.867  +  .  429 

+  .14 

-  -039      o 

.13         .47      .22 

47  Librae 

4044 

—  25  58  16.21 

81.2 

—  10.83  2  +  .448 

+  •15 

—  .021       o 

.11         .55      .19 

4  Scorpii 

4045 

-64  44  49.92 

82.9 

—  io.8i5  +  .676 

+  .46 

—  .029       o 

.15         .69      .24 

20  G  Trianguli  Aust,  also  X 

4046 

+  8  52  28.70 

64.0 

—  10.797  +  .360 

+  .09 

—  .014      o 

.12        .49     .26 

40  Serpentis 

4047 

+  56    7  19.54 

55-i 

—  10.719  +  .  176 

+  .04 

+  .056      o 

.11         .51      .30 

4048 

+  2036  14.25 

62.2 

—  IO-720+-329 

+  .07 

+.039-  I 

.12        .55      .29 

4049 

-33  4024.74 

79.8 

—  10.786+.  476 

+  .18 

—  .052       o 

.IO        .52      .19 

1  ii"  48° 

4050 

-33  40  I7-51 

75-5 

—  10.780+.  476 

+  .18 

—  .046       o 

.13        .69      .27 

f      *  *         *fr*J 

4034^36- 


1 64 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

HI  and  100  A  p 

Prob.  Errors. 
oEp.     100  H.     aio 

M 

h    m         s 

s               s 

S 

s 

//            //          // 

4051 

Grvv'i5  296 

6.7 

15  50  37.904 

88.4 

+  3-3579+-oi25 

-.003 

+.0018+  I 

.12            .52         .17 

4052 

p  Scorpii 

4-0 

5°  42.525 

75-o 

+  3.6954+.oi99 

-.008 

—  .0010      o 

.08            .33         .14 

4053 

Dpt  1756 

7.2 

5043.811 

78.6 

+  3.  1030+.  0083 

—  .001 

—  .0062       o 

.09            .45         .17 

4054 

Br  2025 

5-7 

51  17.764 

67.0 

+  1.9972  +  .0034 

+  .OOI 

-  .0043      o 

.10        .48      .23 

4055 

y  Serpentis 

3-8 

51  50.019 

7i-3 

+  2.7688  +  .0057 

+  .001 

+  .0210+   7 

.04            .20         .08 

4056 

Br  2028 

5-8 

52    8.594 

78.4 

+  2.0182  +  .0035 

.000 

—  .0021       o 

.09            .36         .15 

4057 

X  Coronae  Bor 

5-7 

52    9.322 

76.0 

+  2.  1826+.  OO27 

+  .OOI 

+  .0037-  I 

.09            .36         .15 

4058 

L  6621 

5-6 

52  34-942 

83-4 

+  3-5875  +  -OI7i 

—  .006 

—  .0032       o 

.13             .90         .27 

4059 

Br  2022 

4.8 

52  35-291 

79-o 

+  3-3542  +  -OI22 

—  .004 

—  .0010      o 

.07            .34        .12 

4060 

<j>  Serpentis 

5-8 

52  37-73° 

66.6 

+  2.  7668  +.O044 

+  .OOI 

—  .0077       o 

.15            .64        .32 

4061 

L  6609 

5-2 

•jtffe 
52  4nBiS 

86.0 

,O?0  <? 

+  4*.078$+.0303 

-.013 

+•££  o 

.16           .98         .29 

4062 

TT  Scorpii 

2.9 

52  48.069 

78.4 

+  3.62io+.oi78 

—  .006 

—  .001  1       o 

.06           .27         .IO 

4063 

t  Coronae  Bor 

4.2 

53  26.812 

79-9 

+  2.  4820+.  0031 

+  .OOI 

—  .0064+   I 

.04           .26        .09 

4064 

17  Lupi 

3-6 

53  29-612 

81.8 

+  3-9633  +  -0268 

—  .on 

—  .0017      o 

.IO           .45         .16 

4065 

Groomb  2315 

7-7 

53  46.94- 

81.4 

—  6.540-  +.706- 

+  .0091—   5 

.07            .38         .13 

4066 

8  Scorpii 

2-3 

54  25.155 

73-6 

+  3.  5402  +  .  0158 

—  .006 

—  .0009      o 

.04           .20        .08 

4067 

Br  2026 

5-7 

54  42.809 

76.6 

+  3-36o9  +  .oi33 

—  .004 

—  .0440+     2 

.06           .27         .11 

4068 

L  6573 

5-9 

54  46.828 

87-3 

+  6.6028  +  .  1639 

-.085 

—  .0102—   6 

.18           .8l         .26 

4069 

Pi  239 

6.0 

55  16.085 

75-7 

+  2.  2147  +  .OO28 

+  .001 

+  .0017       o 

.10           .57         .22 

4070 

Br  2030 

5-7 

55  23.629 

72.6 

+  3.2346  +  .oioo 

-.003 

—  .001  1       o 

.IO            .46         .20 

4071 

L  6615  m 

4.9 

55  23-876 

89.6 

+  4.8535  +  .0596 

-.030 

-.0137+  I 

.l6            .96         .26 

4072 

Groomb  2296 

5-i 

55  25-000 

85-2 

+  1.4183  +  .0096 

—  .004 

—  .0186      o 

•05         .36      .10 

4073 

if  Normae 

4-7 

55  5i-7o8 

87-5 

+4-3903  +  -°399 

—  .019 

+  .0029       o 

.20            .87          .28 

4074 

Br  2031 

6.2 

55  53-248 

76-5 

+  2.9749  +  .  0064 

—  .001 

—  .003  1       o 

.09            .32          .14 

4075 

Br  2032 

5-4 

56  44.681 

77-o 

+  2.  6936+.  0038 

+  .OOI 

-.0037-  I 

.07            .30         .12 

4076 

L  6644 

5-2 

56  45-044 

86.4 

+  3-9774+-Q265 

—  .012 

—  .0022       o 

.13            .69         .21 

4077 

p  Coronas  Bor 

5-5 

57  13-189 

66.7 

+  2.  2916+.  OO42 

+  .OOI 

-.0171+  7 

.08            .34         .17 

4078 

Pi  237 

5-3 

57  17-955 

77-o 

+  3.6i77  +  .oi73 

-.007 

—  .0050      o 

.12            .54         .22 

4079 

Br  2063 

7-2 

57  23-57I 

73-6 

-i.  4866  +.1288 

—  .090 

+  .0051+  I 

.09            .50         .20 

4080 

i  Coronas  Bor 

5-i 

57  26.206 

84.2 

+  2.  4O2I  +  .OO2Q 

+  .OOI 

—  .0029       o 

.11             .48         .l6 

4081 

TT  Serpentis 

4-9 

57  59-297 

75-3 

+  2.  5821  +  .0033 

+  .OOI 

+  .0005       o 

.IO            .44         .l8 

4082 

(l  Scorpii  m 

4.2 

S8  52-103 

7i-5 

+  3.2945  +  .oio8 

-.003 

—  .0042       o 

.09            .39         .I? 

4083 

f2  Scorpii 

7-5 

58  52-568 

95-2 

+  3.293O+.oio8 

-.003 

-.0051       o 

.14            .87          .19 

4084 

8  Normas 

4.8 

59  25-309 

74-7 

+4.2242  +  .0331 

-.018 

+  .0001       o 

.12            .54         .22 

4085 

Groomb  2302 

6-3 

59  32-357 

71.2 

+  1.5265  +  .0084 

-.003 

—  .0009+   I 

.11            .51          .23 

4086 

ft1  Scorpii 

2.6 

59  37.266 

67.6 

+  3.48i7  +  .oi4i 

—  .006 

—  .0008      o 

.03            .l6         .08 

4087 

/82  Scorpii 

5-5 

59  37-680 

73-6 

+  3.  4810+.  0141 

—  .006 

—  .0016       o 

.08            .44         .l8 

4088 

Pi  266 

6.1 

59  38-756 

74-9 

+  2.  2050  +.0030 

+  .OOI 

+  .OOII         O 

.12           .69         .27 

4089 

v  Herculis 

4.8 

15  59  40.980 

68.0 

+  1.867  1  +  .0048 

.000 

-Koo55      o 

.09           .34        .17 

4090 

0  Draconis 

4.1 

16    o    0.875 

69-5 

+  I.n86+.oi36 

—  .007 

—  .0401  —   4 

.03           .15         .O? 

4091 

6  Lupi 

4-4 

o    1.448 

82.8 

+  3.9281  +  .0244 

—  .012 

—  .0017       o 

.09           .40        .14 

4092 

L  6689 

6.1 

o    8.423 

91.8 

+  3-570I  +  .OI58 

—  .007 

—  .0017       o 

.11            .70        .17 

4093 

(o1  Scorpii 

4.1 

057-373 

60.8 

+  3-5032  +  -OI44 

—  .006 

—  .0005       o 

.IO            .36         .20 

4094 

L  6665 

5-9 

i    5-i7i 

87.6 

+  4.9019+.  0581 

-•035 

-.0038+   i 

.18            .94         .28 

4095 

<o2  Scorpii 

4-5 

i  32.364 

66.6 

+  3.5I20+.OI45 

—  .006 

+  .0030       o 

•07            -32         -IS 

4096 

Pi  265 

5-8 

2      1.840 

78.2 

+  3.6502  +  .oi7o 

—  .007 

+  .0090       o 

.09            .51          .19 

4097 

Br  2042 

5-8 

2    3-I29 

76-7 

+  3.326i  +  .oii2 

—  .004 

—  .0036      o 

.08            .38         .IS 

4098 

Br  2045 

5-9 

2  51.040 

73-5 

+  2.86i8+.oo52 

.000 

—  .0017       o 

.10        .34      .16 

4099 

Br  2046 

7-i 

3  I9-695 

80.9 

+  2.  8569  +.OO5  2 

.000 

—  .0024      o 

.12           .38         .16 

4100 

L  6711 

S.8 

16    3  27.811 

85-4 

+  3-8357  +  -02I4 

—  .010 

—  .0029       o 

.12           .69        .21 

4071  See.    5^6-sfS  o'.'6  350°;  9"  n"  250°. 


CATALOGUE  OF  6188  STARS  FOR  1 900 


165 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

p'andiooAp' 

Prob.  Errors. 
SEp.  ioo|i'  Sio 

Remarks. 

4051 

0             /                 /' 

—  14    6  19.84 

84.6 

n                ff 
—  IO.829+.  418 

// 

+  •13 

// 
—  .105       o 

.12         .54      .l8 

4052 

—  28  55  19.61 

73-9 

—  10.  749  +  .460 

+  •17 

-  .030      o 

.08         .34      .15 

4053 

-   i  52  13.36 

73-4 

-10.782  +  .386 

+  .10 

—  .065—    i 

.07         .29      .13 

5i98S.    8M6"338° 

4054 

+43  2S  47-03 

63-5 

—  10.617  +  .  250 

+  .04 

+  .058       o 

.08         .35      .18 

2  Herculis 

4055 

+  15  59  15.99 

72.1 

-H-933  +  -349 

+.07 

-1.297+3 

.04         .20      .09 

4056 

+  42  51  24.53 

72.0 

-10.613  +  .  254 

+  .04 

.000      o 

.08         .28      .13 

4  Herculis 

4057 

+  38  14    8.29 

70.6 

-10.540+.  275 

+.05 

+  .072      o 

.09         .29      .14 

4058 

-2432  35.65 

78.1 

—  10.608  +  .448 

+•15 

—  .028       o 

.14         .91      .32 

ii  G  Scorpii 

4059 

-13  5927.58 

69.0 

—  io.6n  +  .42o 

+  .12 

-.031      o 

.06         .26      .12 

48  Librae 

4060 

+  1442    3.04 

61.7 

—  10.502  +  .346 

+  .07 

+  .074-  I 

.14         .64      .34 

4061 

-41  27  26.94 

84.4 

-10.592  +  .  510 

+  .22 

—  .021      o 

.14         .85      .26 

144  G  Lupi 

4062 

-254934.63 

75-2 

-10.600+.  453 

+  •15 

-  .036      o 

.06         .26      .11 

4063 

+  27   IO      2.  II 

76.2 

-10.584+.  312 

+  .06 

-.068-  I 

.04      .27    .10 

Clark.     IIM  2"  353° 

4064 

-38      639.20 

77-5 

-10.551  +  .496 

+  .20 

-  .039      o 

.09         .39      .15 

Riimk.    8Mi5"2i° 

4065 

+  83   I4  57-82 

84.0 

—  10.487—  .807 

+  .004+  I 

.08         .43      .14 

4066 

—  22   2O  14.07 

73-9 

-10.482  +  .445 

+  .14 

-  .039      o 

.04         .19      .08 

4067 

—  16  14  20.16 

76.6 

—  10.821  +  .418 

+•13 

-.400—   5 

.06         .28      .11 

jf  Librae 

4068 

-72      730-27 

9°-3 

-I0.339  +  .826 

+  -74 

+  .077-    i 

.16         .98      .25 

38  G  Apodis 

4069 

+  36  55  38.66 

73-5 

—  10.  356+.  281 

+  .05 

+  .024      o 

.09         .46      .19 

4070 

-   8    7  43.14 

74-S 

—  10.400  +.408 

+  .ii 

-  .030      o 

.IO         .41      .l8 

50  Librae 

4071 

-57  2936.41 

85-8 

—  10.467  +  .608 

+  -34 

-.097-     2 

.12         .69      .21 

28  G  Normae  i  * 

4072 

+  55    i  55-87 

81.1 

—  10.261  +  .  179 

+  .04 

+  .I08-     2 

.06         .36      .12 

4073 

-4857    2.46 

81.3 

-10.343  +  .553 

+  .25 

-.008       o 

.14         .63      .23 

4074 

+   4  42  25.37 

75-o 

-I0.267  +  .376 

+  .09 

+  .066      o 

.10      .31    .14 

4075 

+  18    5  40.22 

73-4 

-IO.I25  +  .34I 

+  .07 

+  .144      o 

.06         .26      .12 

5  Herculis  r 

4076 

-38  19  24.74 

85-9 

-10.304+.  502 

+  .19 

-  -035       o 

.12         .59      .19 

151  G  Lupi 

4077 

+  33  36  18.16 

64-4 

—  11.014+.  289 

+  .05 

-.781-     2 

-07      -33    -16 

4078 

-25  35  11.24 

76.7 

-10.270+.  457 

+  .14 

-.043-     I 

.12         .51      .21 

15  G  Scorpii 

4079 

+  75  Si  39-13 

69.8 

—  10.240—  .182 

+  .29 

—  .020+     I 

.09         .33      .16 

17  UrsaeMin 

4080 

+  30    7  50-59 

77.6 

-10.241  +  .305 

+  .05 

—  .024      o 

•  io      .35    .15 

4081 

+  23    454-42 

72.0 

—  io.i6o+.329 

+  .06 

+  .015       o 

-08         .33      .15 

4082 

-ii    550.80 

70.0 

-IO.I43  +  .4I9 

+  .ii 

-  -034      o 

.08         .30      .14 

1*   -,"  A,0 

4083 

-ir    547-47 

91.8 

—  10.136+.  418 

+  .ii 

-.028—  I 

.12         .73      .18 

7    °3 

4084 

-  44  54    6.83 

74-9 

-10.050+.  537 

+  .22 

+  .017       o 

.10      .47    .19 

4085 

+  53  ii  36.62 

69-3 

-10.095  +  .197 

+  .04 

-  -037       o 

.11         .50      .23 

4086 

-1931  54.72 

67.1 

—  10.081  +  .443 

+  •13 

—  .029      o 

.03         .l6      .08 

1/8947-    ioMi"94°; 

4087 

-19  31  41.90 

65.2 

-10.077  +  .443 

+  •13 

—  .025       o 

.06         .28      .14 

J  5^5  14"  25° 

4088 

+  36  54  26.79 

71.1 

—  10.072  +  .  282 

+  .05 

—  .022       o 

•io      -S3    -23 

4089 

+  46  18  50.96 

59-8 

—  10.  115  +  .  240 

+  .04 

-.068+  I 

.07        .27      .15 

4090 

+  584955-97 

65-5 

—   9.  684  +  .  140 

+  .04 

+  •338-   5 

.04        .15      .08 

4091 

—  36  31  48.08 

77-2 

-10.057  +  .500 

+  .I9 

-  -°35       o 

.09        .36     .15 

4092 

—  23  2O     2.O2 

86.3 

—  10.061  +  .455 

+  .14 

—  .048       o 

.11         .6l      .18 

19  G  Scorpii 

4093 

-20  23   54.51 

59-4 

-   9.984+.  448 

+  •13 

-  -033       o 

.09        .32      .19 

4094 

-57  3954^6 

82.8 

-   9-999  +  .624 

+  •33 

-  .058      o 

.14        .67      .23 

36  G  Normae  i2 

4095 

-2035  55.48 

66.6 

-   9.963  +  .450 

+  -I3 

-  .056       o 

.07         .28     .14 

4096 

-26    3  31.66 

79.0 

-   9.87  1  +  .468 

+  .14 

—  .002+    I 

.09        .43      .16 

25  G  Scorpii 

4097 

-12  2835.70 

76.0 

—   9.  906+.  426 

+  .n 

-  .038      o 

.08        .37      .15 

1  1  Scorpii  * 

4098 

+  10    933.18 

74-4 

-   9.821  +  .368 

+  .08 

—  .014      o 

.11        .32      .16 

45  Serpentis 

4099 

+  10  20  50.95 

76.9 

-   9.800+.  368 

+  .08 

-.030      o 

.11         .35      .16 

46  Serpentis 

4100 

-33  1649.32 

83-5 

-   9.815  +  492 

+  •17 

-•055      o 

.12        .60     .20 

30  G  Scorpii 

4082  S  1998.     4"C8-s"il2  i",  binary,  45  yrs.  ±. 


4097  0  39.     io1*  3"  238°. 


i66 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


Ho. 

Designation 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.  and  100  A  p 

Prob.  Errors. 
aEp.     loop,     aio 

M 

h    m         s 

s               s 

s 

s 

//             //          // 

4101 

K  Herculis 

5-i 

16    3  33.670 

72.5 

+  2.  7053  +  .0041 

+  .OOI 

—  .0031       o 

.06           .27         .12 

4102 

Br  2050 

6.6 

3  34-083 

76.8 

+  2.  7062  +  .OO4I 

+  .OOI 

—  .0020       o 

.09           .36        .15 

4103 

Br  2047 

6.1 

3  38-699 

80.0 

+  2.  8904  +.005  5 

.000 

—  .0011          0 

.11            .39        .16 

4104 

Br  2054 

6.4 

4  16.105 

82.6 

+  2.  7023  +  .  OO4I 

+  .OOI 

—  .0019       o 

.12            .40         .l6 

4105 

L67is 

6.2 

4  28.563 

91.6 

+  4.0744+.  0278 

-  .015 

—  .0100+   i 

•13        -75      -19 

4106 

Paris  202  1  1 

5-6 

4  36-488 

93-i 

+  3-I375  +  -°°82 

—  .002 

—  .0004       o 

.13        .80      .19 

4107 

Pi  280 

5-3 

4  49.160 

79-4 

+  3.7i7i  +  .oi86 

—  .010 

—  .0085       o 

.12            .57         .21 

4108 

r  Coronae  Bor 

5-i 

5  18.876 

65.6 

+  2.  1919  +  .  0026 

+  .OOI 

-.0050-   3 

.O?            .32         .16 

4109 

81  Apodis 

4-9 

5  23-576 

78.8 

+  8.8oi8  +  .337i 

-.274 

—  .0062  +   4 

.07            .54         .18 

4110 

82  Apodis 

5-4 

5  3°-773 

86.0 

+  8.7965  +  -3356 

-•273 

+  .0010+   5 

.13        .88      .25 

4111 

K  Normae 

5-2 

5  35-37° 

89.2 

+  4.7080+.  0479 

-.031 

—  .0016+   i 

.15        .94      .25 

4112 

<£  Herculis 

4-3 

5  37-120 

76.! 

+  1.8887  +  .0045 

.000 

—  .0021       o 

.04        .26      .10 

4"3 

Groomb  2320 

5-5 

6    2.911 

75-8 

+0.1478+.  0400 

—  .024 

—  .0064—    2 

.06        .34      .13 

4114 

Br  2051 

5-8 

6    5-123 

78.7 

+  3.  6983  +  .01  78 

—  .009 

—  .0027       o 

.12            .50         .IQ 

4"S 

Br  2052 

4.8 

6    8.509 

81.4 

+  3-6862  +  .OI75 

—  .009 

—  .0021       o 

.08            .39         .14 

4116 

Pi  3  n.p. 

7-5 

6    9.822 

76.0 

+  3.4810+.  0134 

—  .006 

—  .0003       o 

.11             .60         .23 

4117 

v  Scorpii  m 

4.2 

6  10.930 

70.1 

+  3.4807  +  .0134 

—  .006 

—  .0008       o 

.05            .26         .11 

4118 

STrianguli  Aust 

4.1 

6  19.979 

78.6 

+  5-423I  +  .0783 

-•055 

+  .0004       o 

.14            .52         .22 

4119 

\fi  Scorpii 

5-° 

6  31.968 

72.6 

+  3-2753  +  -0100 

—  .004 

—  .0003      o 

.09            .36         .l6 

4120 

Br  2057 

5-6 

6  42.114 

68.7 

+  3.2463  +  .0095 

-.003 

+  .0026      o 

.12            .48         .23 

4121 

Radcl  3524 

5-9 

6  49-364 

84-4 

-2.0543  +  .I532 

-.086 

—  .0047       o 

.13            .63         .21 

4122 

Br  2060 

6-3 

6  57.067 

72.0 

+  2.  7144+.  0041 

+  .OOI 

+  .0002       o 

.10            .45         .20 

4"3 

Radcl  3513 

6-5 

7    5-198 

84.2 

+  I.I707  +  .OI34 

—  .007 

—  .0026       o 

.10        .62      .19 

4124 

Br  2068 

6.8 

7    9.696 

66.6 

+  1.943  1  +  .0048 

.000 

+  .0115+   3 

.09            .34         .I? 

4«5 

Br  2064 

6.3 

7  22.634 

66.6 

+  2.5522  +  .0034 

+  .OOI 

—  .0016      o 

.12            .52         .26 

4126 

L  6722 

5-9 

7  33-796 

84.8 

+  4.9323  +  .0558 

-•039 

-.0017+  I 

.18            .78         .27 

4127 

Pi  10 

7-i 

7  47.616 

77-5 

+  3-5I96+.OI40 

—  .006 

—  .0089       o 

.09            .46         .l8 

4128 

6  Normae 

5-3 

7  59-633 

87.2 

+  4.3400+.  0344 

—  .022 

—  .0029+   I 

.18            .87         .27 

4129 

Pi  25 

6.0 

8    8.703 

71.8 

+  2.I927+.0032 

+  .OOI 

—  .0003      o 

.13             .70         .30 

4130 

Br  2062 

5-8 

8  18.529 

82.4 

+  2.  9663  +  .0061 

—  .001 

+  .0030      o 

.12            .40        .16 

4131 

X  Scorpii 

5-5 

8  18.936 

65.8 

+  3-3I34+.°i°5 

—  .004 

—  .0010      o 

.15           .46        .26 

4132 

Br  2066  m 

7-i 

8  38.628 

69-3 

+  2.  7938  +  .005  1 

+  .OOI 

+  .OII6+     2 

.10        .36      .18 

4133 

L  6735 

5-7 

8  53-533 

91.0 

+  4.6732  +  .045  1 

-.031 

—  .0006      o 

.20        I.O5         .28 

4134 

8  Ophiuchi 

2.7 

9    6.260 

71.4 

+  3.  1401  +  .0082 

—  .002 

-.0033+  I 

.02            .14        .06 

4135 

L  6746 

5-o 

9  3I-562 

85-4 

+  4.4739  +.0380 

—  .026 

—  .0006      o 

.l6           .92         .28 

4136 

Br  2069 

7.0 

9  51-696 

89-4 

+  2.  902  1  +  .005  5 

—  .001 

—  .0014       o 

.13            .50        .16 

4137 

Br  2067 

5-6 

10  11.078 

67.6 

+  3-2565+  •0099 

—  .004 

+  .0153+  3 

.09           .32         .16 

4138 

<r  Coronae  Bor  e.g. 

5-7 

10  55-952 

77-6 

+  2.  2445  +  .0034 

+  .OOI 

—  .0232+    2 

4139 

Br  2072 

6.1 

ii    2.767 

70.0 

+  2.  6580+  .OO4O 

.000 

—  .0038+   I 

.14           .54        .26 

4140 

Pi  28 

7.0 

ii    8.354 

74-4 

+  3-4995  +  -°I33 

-.007 

—  TOO2O         O 

.12             .54         .23 

4141 

Br  2071 

7-7 

ii  17.207 

85-4 

+  2.8233  +.0048 

—  .001 

-  .0034       o 

.12            .45          .16 

4142 

Br  2075 

6.9 

12      0.844 

79-6 

+  2.  5566+.  0035 

.000 

—  .OOI  I         O 

.IO            .42          .l6 

4143 

Pi  31 

5-o 

12      5.681 

78.3 

+  3-7I28+.OI74 

—  .010 

—  .0026+   I 

.11            .46         .l8 

4144 

A  Normae  m 

5-7 

12  19.923 

88.4 

+  4.1607  +  .  0278 

-.018 

—  .0009      o 

.15            .90         .25 

4145 

L  6764 

4.1 

12  21.317 

79.2 

+  4.4701  +  .0373 

-.027 

—  .0180       o 

.10        .51      .19 

4146 

v  Coronae  Bor 

5-9 

12  44.378 

68.7 

+  2.40H  +  .003I 

.000 

+  .0008      o 

.IO           .40        .19 

4147 

«  Ophiuchi 

3-i 

13      1-757 

76.2 

+  3.  1705  +  .0081 

-.003 

+  .0053       o 

.03           -l8         .07 

4148 

Pi  35 

7.2 

13  11.928 

86.0 

+  3.7842  +  .oi84 

—  .on 

+  .0041       o 

.13            -75          .22 

4149 

L  6788 

5-9 

13  13.064 

78.1 

+  3-7855  +  -oi84 

—  .on 

+  .0052       o 

.10        .51      .19 

4150 

Pi  39 

6.6 

16  13  16.259 

75-9 

+  3-5°7I  +  -OI32 

—  .007 

+  .0007      o 

.12            .56         .22 

4114  h  4839.    9M  4"  77°. 


4132  2  2021.     7"!'8-8Mo  4"  334°,  very  slow. 


CATALOGUE  OF   6 1 88   STARS  FOR   IQOO 


167 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

I*'  and  ioo  AH' 

Prob.  Errors. 
SEp.  loop'  8  10 

Remarks. 

4101 

o         /           // 

+  17  18  47.34 

68.5 

//                      // 

-    9.768  +  .  348 

// 

+    .07 

n 

—  .014       o 

//          //        // 

.06         .24      .12 

1     X   ortrn          -?r/'    TT° 

4102 

+  17  19  16.47 

74-7 

-    9-791  +  .348 

+    -07 

-  -039       ° 

•07      -33    -14 

t    **  3wlVi       ^cj      11 

4103 

+  8  47  59.80 

77-8 

-   9.764  +  -372 

+    .08 

—  .018       o 

.10      .37    .16 

47  Serpentis 

4104 

+  17  28  15.60 

76-3 

-   9-736  +  -349 

+    .07 

-  .038       o 

.11      .35    .16 

8  Herculis  q 

4105 

-4051  16.95 

89.9 

-   9.8ii  +  -523 

+    .I9 

—  .129—    I 

.12         .58      .I? 

34  G  Scorpii 

4106 

-   3  12  12.97 

90.4 

-   9.  687  +  .404 

+    .09 

-.015       o 

.11          .69      .17 

4107 

—  29    9    8.26 

74-o 

-   9-750+-  478 

+    .16 

-.094-  I 

.IO         .40      .l8 

35  G  Scorpii 

4108 

+  36  44  41.09 

65.6 

—   9.299+.  284 

+    .04 

+  .319-  I 

.06         .30      .15 

0  1087.   13""  3"  171°,  fixed 

4109 

-78  2637.40 

78.8 

—   9.650+1.129 

+  1-36 

-.037-  I 

.06         .52      .17 

4110 

-78  24  57.16 

82.3 

-   9.635  +  1.130 

+  1.36 

—  .032       o 

.11         .6l      .20 

4111 

-54  22    18.30 

87a 

—   9.  640+.  606 

+    .29 

-  .043     ° 

.11         .73      .20 

4112 

+  45  ii  48.72 

77.8 

-   9-572  +  .24S 

+    .04 

+  .023       o 

.04         .24      .09 

4"3 

+  68    4  24.73 

72.7 

—     9.  504+.  022 

+    .08 

+.058-  I 

.05         .27      .11 

4114 

—  28    9  26.36 

77-3 

-   9-6i4  +  .477 

+    .14 

-  -055       o 

.11         .46      .19 

12  Scorpii  cl  * 

4"5 

—  27  40    i.  20 

77-7 

-   9-593  +  -476 

+   .14 

-  .038       o 

•09      -34    -14 

13  Scorpii  c2 

4116 

—  19  ii  24.92 

72.6 

-   9.566  +  .450 

+     .12 

-.013       o 

.09      .47    .20 

{Mitchel.  7IV8IV"460 

4117 

-1912    3.32 

68.9 

-   9.584+.  450 

+  .13 

-.032       o 

•05         .25      .12 

l/3i20.  4"4-5"9  o'.'S  3° 

4118 

-63  25  48.14 

78.4 

-   9-558  +  -70Q 

+  .41 

—  .018       o 

.11         .47      .19 

4119 

-   9  48  18.98 

68.9 

-   9.551  +  .424 

+  .11 

—  .027       o 

.09        .31      .15 

4120 

-   8  17  21.86 

69.1 

-   9.528  +  .42I 

+  .11 

—  .016      o 

.IO        .42      .20 

1  6  Scorpii 

4121 

+  77    338-05 

86.2 

-   9.495-.  260 

+  .36 

+  .007—   I 

.12         .52      .17 

4122 

+  1655  27.09 

68.0 

-   9.  506+.  352 

+  .07 

—  .014       o 

.IO         .40      .20 

(48  Serpentis)  (Herculis  g) 

4123 

+  58  ii  53.70 

84.2 

-   9.464+.  154 

+  .04 

+  .018       o 

.IO         .67      .20 

4124 

+  44    5    8.21 

56-9 

-   9.788  +  .2S5 

+  .04 

—  .312+     2 

.09         .32      .19 

14  Herculis 

4125 

+  23  45  11.55 

62.7 

-   9-47S+.332 

+  .06 

—  .018       o 

.11         .46      .24 

10  Herculis 

4126 

-57  39  26.92 

84.6 

-   9.501  +  .638 

+  .32 

—  .056       o 

•IS      -73    -24 

41  G  Normae 

4127 

—  21    8  40.62 

77-4 

-   9-4I2  +  .456 

+  -13 

-.015-  I 

.10      .46    .18 

42  G  Scorpii 

4128 

-47    7    i-79 

78.6 

-   9.471  +  .562 

+    .22 

-  -059       o 

.14         .56      .22 

4129 

+  36  40  59.00 

68.0 

—   9.  440+.  286 

+     .04 

—  .040      o 

.11         .60      .28 

4130 

+  5  16  35.69 

75-4 

-   9-399+  -386 

+     .08 

—  .Oil         O 

.11         .34      .16 

9  Herculis 

4i3i 

-ii  3457-68 

69.0 

-   9.400  +.43  1 

+     -II 

—  .013      o 

.12         .44      .22 

4132 

+  13  47  38.80 

67.6 

-   9.  789  +  .  366 

+     .07 

-.427+     2 

.08         .33      .16 

49  Serpentis  * 

4133 

-S3  33  36-49 

85.8 

-   9-3S6+-  607 

+    .27 

—  .014      o 

.l6         -75      .24 

44  G  Normae 

4134 

-   3  26  13.41 

70.2 

-   9.479  +  .409 

+     .09 

--I53      o 

.02         .14      .06 

4135 

-4949    4-76 

78.2 

-   9-297  +  -S82 

+   .24 

—  .004      o 

.13         .56      .22 

46  G  Normae  y1 

4136 

+  8    637.46 

80.5 

-   9-2S5  +  -379 

+  .08 

—  .018       o 

.12        .36      .16 

12  Herculis 

4137 

-   8    617.73 

63-9 

-   9.758  +  .427 

+     .10 

-.516+     2 

.08        .29     .16 

1  8  Scorpii 

4138 

+  34    6  41.48 

74-7 

—   9.  277  +  .  292 

+  05 

-.°93-   3 

See  Appendix 

4139 

+  J9    337-23 

65.8 

-   9.265  +  .348 

+'  .06 

—  .090      o 

.11         .46      .23 

16  Herculis 

4140 

-19  51  20.38 

74-6 

-   9.I77  +  .457 

+     .12 

—  .009      o 

.'12         .53      .22 

4141 

+  11  40  23.19 

79-6 

-   9-i27  +  -37° 

+     .07 

+  .030      o 

.11         .37      .16 

15  Herculis 

4142 

+  23  22  15.92 

76.8 

-   9-I24+-336 

+    .06 

—  .024      o 

•09      -35    -i5 

17  Herculis 

4H3 

-28  21   55.57 

82.5 

—   9.  203  +  .486 

+     .14 

—  .109       o 

.11      .49    -17 

53  G  Scorpii  d 

4144 

-42   25  44.82 

83-5 

-    9.094+.  544 

+     .I9 

—  .019      o 

.12         .63      .21 

Lowell.    6^1-7^1  o'/4  162° 

4145 

-  49  54  36.60 

76-4 

-   9.I26+.583 

+     -23 

-.053-     2 

.09         .40      .l6 

49  G  Normae  y2  * 

4146 

+  29  23  50.76 

63-5 

-   9.o69  +  .3i6 

+     .04 

—  .026      o 

.08         .31      .17 

4H7 

—    4  26  56.06 

76.9 

—   8-989  +  .4I7 

+     .09 

+.032+  I 

.04         .20      .08 

4148 
4149 

-303933-6o 
-3039SI-36 

76.4 
75-6 

-   8.990+.  497 
—   9.002  +  .498 

+     -IS 

+     -IS 

+  .018       o 
+  .004+  I 

.12         .53      .22 
.IO         .46      .19 

1  55  G  Scorpii 

4150 

-19  58  27.04 

76.2 

—   9.026+.  461 

+     .12 

—  .024      o 

.12         .53      .22 

4145  h  4841.     iow 


1 68 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   1900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

ixand  100  AH 

Prob.  Errors, 
a  Ep.      loop,     aio 

M 

h    m        s 

s               s 

3 

s 

n                    „                „ 

4151 

Br  2096 

5-6 

16  13  40.218 

78.2 

—  1.  7663  +  .  1253 

—  .O6O 

+  .0015—    I 

.04              .26           .09 

4152 

Groomb  2329 

7-4 

13  59-350 

70.6 

+0.3039+.  0330 

-.018 

—  .0013       o 

•15               -51            -25 

4153 

L6783 

7-o 

14    5-583 

90.2 

+4.3976+.  0341 

—  .025 

—  .0009       o 

.13            .8l         .21 

4154 

Br  2080 

7-o 

14  14.983 

79.1 

+  2.4848+.  0033 

.OOO 

—  .0002      o 

.11            .38         .16 

4155 

Br  2076 

4.8 

14  37-037 

78.! 

+3.6028+.  0148 

-.008 

—  .0010      o 

.09           .42         .16 

4156 

L  6790 

5-6 

14  59-548 

84-4 

+4.4664+.  0358 

—  .027 

—  .OOI  I         O 

.18         1.  08         .33 

4157 

Br  2099 

6-7 

IS     2.733 

71.0 

-1.5591  +  .  IIII 

-.052 

—  .0101—     I 

.IO            .46         .21 

4158 

<r  Scorpii 

15     6.542 

74.8 

+  3-6395  +  -OI54 

—  .OO9 

—  .0009      o 

.05        .24      .10 

4159 

Groomb  2332 

5^8 

15  35-100 

68.6 

+  0.9949  +  .  0158 

-.008 

+  .OOII—     I 

.11            .50        .23 

4160 

Groomb  2337 

6.2 

16  11.743 

77-2 

—  1.0250+.  0827 

—  .O4I 

—  .0040—    i 

.IO           .42         .17 

4161 

Groomb  2328 

5-7 

16  29.605 

58.8 

+  2.0556+.  0037 

.OOO 

—  .0096      o 

.16           .75         .42 

4162 

T  Herculis 

3-8 

1  6  44.067 

78-3 

+  1.  Son  +  .0050 

—  .OOI 

—  .0012       o 

.03            .20        .07 

4163 

a  Serpentis 

4-9 

17    0.427 

63-4 

+  3.  0347  +  .0066 

—  .002 

—  .OI  1  1          0 

.IO           .36        .20 

4164 

L  6810 

5-5 

17  14.800 

93-1 

+  4-0534+-0237 

-.017 

+..0072      o 

.11            .78         .17 

4165 

y  Herculis 

3-7 

i?  30-503 

73-o 

+  2.6449  +  .0038 

.000 

-  .0034      o 

.03           .20        .08 

4166 

£  TrianguliAust 

S-1 

17  42.502 

88.9 

+  6.3990+.  1158 

-.118 

+  .0397      o 

.14            .78         .22 

4167 

L  6816 

5-5 

I?  5I-544 

88.3 

+  3.9914+.  0223 

-.015 

—  .0007      o 

•15        -93      -25 

4168 

y  Apodis 

3-8 

18    6.237 

74-7 

+  9.0554+.  3205 

-.407 

—  .0400+  3 

.08      .44     .17 

4169 

£  Coronas  Bor 

4-9 

18  12.040 

69.2 

+  2.  3363  +  .003° 

.000 

—  .0074      o 

.09           .50        .22 

4170 

\j/  Ophiuchi 

4.6 

18  15.039 

69.0 

+  3-5°S6+-oi27 

—  .007 

—  .0013      o 

.07            .32         .14 

4171 

L  6826  l 

6-7 

18  22.778 

87.7 

+  3-7586+.OI72 

—  .012 

+  .0041+   i 

•  15        -88      .25 

4172 

L  6826* 

6.2 

18  22.855 

87.1 

+  3-759°+-OI72 

—  .012 

+  .0045+   i 

.11       .63     .18 

4173 

vl  Coronas  Bor 

5-4 

18  35-542 

65-3 

+  2.  2570+.  0033 

.000 

+  .0004       o 

.12           .60        .29 

4174 

iTrianguli  Aust 

5-4 

18  39.804 

79-4 

+  5-5393  +  -0735 

—  .070 

+  .0088      o 

.15        .70      .26 

4175 

v2  Coronae  Bor 

5-5 

1843.171 

64.1 

+  2.2597  +  .0031 

.000 

+  .0003      o 

.12           .64        .32 

4176 

Br  2089 

6-5 

19    6.121 

77-2 

+  2.301  2  +  .0032 

.000 

+  .OOIO         O 

.09        .42      .17 

4177 

Br  2085 

6.0 

19  18.486 

64.7 

+  2.9193  +.0055 

—  .002 

—  .0007       o 

.14      .51     .27 

4178 

p  Ophiuchi  m 

4-7 

19  35-241 

78.4 

+3-5907  +-0139 

-.008 

—  .0008       o 

.07            .28         .12 

4179 

L  6812 

5-9 

19  48.950 

89.6 

+  5-0356+  -0530 

—  .048 

—  .0027+   I 

.20           .92         .27 

4180 

t  Normae 

4.8 

19  50-95I 

63.8 

+4.385  2  +  .03  1  7 

—  .026 

—  .0006      o 

.24         1.48         .73 

4181 

i>  Ursae  Min 

5-2 

20  25.384 

77.0 

-1.8030+.  1133 

-.045 

—  .0182—22 

.04            .22         .09 

4182 

a)  Herculis 

4-6 

2O  48.022 

82.2 

+  2.7669+.  0045 

.000 

+  .0030      o 

.06         .46       .14 

4183 

X  Ophiuchi 

4-8 

21  13.629 

69.2 

+  3.4720+.ou8 

—  .007 

—  .0003       o 

.08      .36     .17 

4184 

Br  2093 

5-7 

21  50.391 

81.8 

+  2.  1357  +  .0035 

.000 

+  .0003      o 

.08        .42      .14 

4185 

L6824 

5-4 

21  56.014 

86.6 

+  5.3024+.  0616 

—  .061 

—  .0013       o 

.14      .80     .23 

4186 

Groomb  2347 

5-6 

22      2.l82 

62.6 

-o.i  586  +.0445 

—  .022 

-.0054+  I 

.14        .69      .35 

4187 

Groomb  2343 

5-8 

22  14.064 

82.5 

+  i.3o84+.oioi 

—  .004 

+  .0019      o 

.05        .32      .10 

4188 

Cape«,  3035 

5-5 

22  20.056 

88.6 

+  3.  2321  +  .0086 

—  .004 

+  .0024+   I 

.12           .64        .18 

4189 

v  Ophiuchi 

4-7 

22  23.577 

72.8 

+  3.  2409+.  0086 

—  .004 

—  .0057       o 

.11            .50         .21 

4190 

L  6841 

5-6 

22  27.458 

87.9 

+  4-3323  +  -0295 

-.025 

—  .0015       o 

.15            .80         .23 

4191 

Groomb  2345  m 

5-8 

22  27.581 

66.4 

+  0.7854+.  0188 

—  .OIO 

—  .0050      o 

.12           .54        .26 

4192 

i;  Draconis 

2.7 

22  38.143 

68.0 

+  0.8046+.  0183 

—  .010 

—  .0025—    I 

.03            .18         .08 

4193 

o  Scorpii 

0.8 

23  16.507 

69.2 

+  3-6720+.OI49 

—  .OIO 

-.0005      o 

.03            .15         .07 

4194 

L  6809 

5-6 

23  16.824 

89-5 

+  6.5590+.  1203 

-.142 

—  .0089+   I 

.20         I.O4        .29 

4195 

PulkM  2356 

5-7 

23  28.243 

89.8 

+  3.  053  2  +  .0066 

—  .002 

—  .0002      o 

.11            .58         .16 

4196 

L  6545 

6-3 

23  34.61- 

76.3 

+  2I.343-+2.353- 

+  .007-  +  6 

.05           .42         .15 

4197 

Pulk«  2358 

5-9 

24     7.720 

92.6 

+  3.3869  +  .  0103 

—  .006 

+  .0016       o 

.13           .70        .18 

4198 

Br  2092 

4-9 

24     7.858 

80.6 

+  3.6387  +  .0142 

—  .009 

—  .0004      o 

.09           .38        .14 

4199 

L68S4 

5-6 

24  44-754 

91.8 

+4.I575  +  .0244 

—  .020 

—  .0004       o 

.18         1.95         .40 

4200 

L  6859 

4-4 

16  24  50.783 

82.8 

+  3-9H7  +  .OI92 

-.015 

—  .0007      o 

.09           .50        .16 

4176  W.  H.    9M  34"  18°. 


4191  2  2054. 


°,  slow. 


CATALOGUE   OF   6 1 88   STARS   FOR    IQOO 


169 


Ho. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3at 

H.'  and  100  A  ji' 

Prob.  Errors. 
SEp.  loop'  Sio 

Remarks. 

4i5i 

01                 II 

+  76    7  45-75 

75-6 

//                tt 
-     8.964—  .226 

// 

+    -30 

it 

+  .007       o 

//        it       a 

.05         .22      .09 

19  Ursae  Min 

4152 

+  66  37  29.28 

60.9 

-     8-954  +.043 

+    .08 

-.008       o 

.12      43    .24 

4153 

-47  56  52-00 

87.4 

-   8.972  +  .578 

+     .22 

-  -034      o 

.11     .61    .18 

51  G  Normas 

4154 

+  26    8  23.81 

76.2 

-   8.934+.328 

+     -05 

—  .009      o 

.11    .35  .16 

19  Herculis 

4155 

-23  5542-47 

71.7 

-   8.937  +  474 

+     -13 

—  .040      o 

•09      -33    -IS 

19  Scorpii  (o) 

4156 

-  49  20    0.83 

79-8 

-   8.898  +  .588 

+     -23 

-.031       o 

.14      .73    .26 

52  G  Normae 

4157 

+  75  27  3°-46 

69.8 

-   8.838-.  202 

+      .27 

+  .025—   I 

.10      .35    .17 

20  Ursas  Min 

4158 

—  25  21   IO-49 

73-o 

-   8.890+.  480 

+     .12 

-  .032       o 

.05      .23    .10 

W.H.      8M2l"272° 

4159 

+  595950-75 

60.1 

-   8.8oi  +  .i34 

+     .04 

+  .020      o 

.10      44    .24 

4160 

+  73  38  21.  ii 

74-9 

-   8.755-.  131 

+     .19 

+  .018      o 

.09      .34    .15 

4161 

+  39  56  51.40 

61.4 

-   8.766  +  .  272 

+     .04 

—  .017—   I 

.12      47    .26 

4162 

+  4633    4.92 

73-2 

—   8.  700+.  240 

+     -03 

+  .030      o 

.03      .15    .06 

4163 

+   i  15  49.84 

64.8 

-   8.666  +  .401 

+     .08 

+  .043-  I 

.10      .34    .18 

4164 

-3857  32-95 

89.2 

-   8.709  +  .537 

+     -17 

—  .019+  I 

.11      .61    .17 

62  G  Scorpii 

4165 

+  19  23  15.98 

72.4 

-   8.630+.  351 

+     .06 

+  -039      o 

.04      .20    .08 

4166 

-6951  31.68 

89.0 

-   8.5S3  +  .85i 

+   -55 

+  .100+  5 

.12         .77      .20 

4167 

-37  1956-97 

84.6 

—   8.  664  +  .  529 

+   .16 

—  .022      o 

.13         .69      .22 

66  G  Scorpii 

4168 

—  78  40  20.97 

76.6 

—   8.699+1.190 

+  1-31 

-•077-   5 

.07         42      .l6 

4169 

+  31    7  25-5° 

65.6 

-   8.522  +  -3IO 

+    .04 

+  .092—    i 

.09         .37      .19 

4170 

—  19  48  12.65 

64.9 

-   8.674  +  .  465 

+   .11 

—  .063      o 

.07         .31      .16 

4171 

—  29  28    7.21 

75-o 

-   8.7  1  7  +  .499 

+   .14 

—  .117      o 

.17         .84      .34 

1  h  4850.    6'.'S  350° 

4172 

-29  28  13.48 

80.6 

-   8.685  +  .499 

+   .14 

-.085+  I 

.12        .52      .19 

J  67  G  Scorpii 

4173 

+  34    2    3.39 

61.1 

-   8.633  +  .301 

+   .04 

—  .049      o 

.11         .57      .30 

4174 

-63  49  5°-58 

79-7 

-   8-570+.735 

+    -39 

+.008+  I 

.13        .64     .23 

Dunlop.    9"  22"  20° 

4175 

+  3356    9.80 

62.3 

-   8.5I9+-30I 

+    .04 

+  .055      o 

.IO        .60     .30 

4176 

+  3233  58-17 

70.7 

-   8.56i  +  -307 

+    .04 

—  .018       o 

.08        .30     .14 

23  Herculis  * 

4177 

+  7  10  44.95 

63-7 

-   8.519+.  389 

+    .07 

+  .008      o 

.12         .46      .24 

21  Herculis  o 

4178 

-23  12  59.21 

76.8 

-   8.526+.  478 

+     .12 

—  .021       o 

.08         .27      .12 

See  Appendix 

4179 

—  58  22  20.89 

85-3 

-   8.540+.  668 

+      .29 

-  -°53       o 

.16         .73      .24 

55  G  Normae 

4180 

-47  I934-9I 

67.0 

-   8.492  +  .583 

+     .20 

-.008      o 

.17      I.O5      .48 

114853-    7M23"335° 

4181 

+  75  59    8.97 

75-4 

-   8.i87-.237 

+     .29 

+  .252—     2 

.05         .23      .09 

4182 

+  14  15  47.80 

78.8 

-   8.474+.  370 

+     .06 

-  .065      o 

.06        .33      .12 

/3  625.      I2M  2"   183° 

4183 

-18  13  46.14 

67.9 

—   8.406+463 

+     .11 

-.031      o 

.09        .34     .17 

4184 

+  37  37  17-5° 

75-3 

-   8-3S2  +  .287 

+     .04 

—  .026      o 

.08        .33      .14 

25  Herculis 

4185 

-61  2443.07 

85-1 

-   8.322  +  .707 

+    -33 

-.003      o 

.12         .65      .20 

33  G  Trianguli  Aust 

4186 

+  69  20  26.11 

60.7 

-   8.324-  .018 

+     .10 

—  .014—   I 

.14         .58      .32 

4187 

+  55  25  56.64 

78.0 

-   8.279+.  177 

+    -03 

+  .016      o 

.06         .31      .12 

4188 

—     7   22   I0.5O 

84-3 

•   8.459+433 

+    .09 

—  .172       o 

.10      .55    .17 

4189 

-   8    8  52.76 

71.4 

-   8.274+433 

+     .10 

+  .009—    I 

.09         .38      .17 

4190 

—  46    i  16.62 

87.7 

-   8.287  +  .  578 

+    .20 

—  .010      o 

.12         .71      .20 

59  G  Normae 

4191 

+  61  55  26.36 

63.1 

-   8.245  +  .  107 

+  .05 

+  .032-  I 

.11      44    .23 

* 

4192 

+  61  44  25.81 

66.5 

—   8.  204+.  no 

+  -05 

+  .059      o 

.03      .14    .07 

OS3i2.8MS'-'4i430 

4193 

—  26  12  36.80 

71.0 

-   8.245  +  492 

+     .12 

-  -033      o 

.04      .18    .08 

Antares  * 

4194 

—  70  46  19.10 

89.6 

-   8.248  +  .  875 

+    -57 

-.037-  I 

.16      .97    .25 

45  G  Apodis 

4195 

+  o  53  19.44 

88.2 

—   8.272  +  410 

+    .oS 

—  .076      o 

.11      47    .15 

4196 

-86  1042.86 

79-9 

-  8.189+2.845 

—  .001  +   I 

.05      .38    .12 

26  G  Octantis 

4197 

-14  1953.37 

88.6 

-  8.135  +  455 

+     .10 

+  .008      o 

.13      .64    .19 

4198 

-  24  53  42.46 

81.2 

-   8.171  +  488 

+     .12 

—  .028       o 

.10      43    .16 

22  Scorpii 

4199 

-4i  35  59-75 

9°-5 

-   8.068  +  .558 

+  -17 

+  .026      o 

.14    1.50    .32 

71  G  Scorpii 

4200 

-34  29  11.62 

77.1 

-  8.IIO+.525 

+  .15 

—  .024      o 

.09      43    .17 

72  G  Scorpii  N  etc. 

4193  Mitchell.     7M  3"  278°. 


170 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.  and  100  Ap 

Prob.  Errors. 
aEp.     loop     aio 

M 

h    m        s 

s               s 

s 

s 

//            //          // 

4201 

Br  2102 

Var. 

16  25  21.421 

75-3 

+  1.9682  +  .0040 

—  .OOI 

+  .0020      o 

.08         .33       14. 

4202 

<f>  Ophiuchi 

4-4 

25  24.845 

71.2 

+  3.4287  +  .0109 

—  .OO6 

—  .0038       o 

.06         .28       .13 

4203 

X  Ophiuchi  m 

4.0 

25  S2-I36 

76-3 

+  3.  02  20  +.0063 

—  .OO2 

—  .0032       o 

4204 

ft  Herculis 

2.6 

25  55-239 

78.8 

+  2.5770+.  0036 

.OOO 

-  .0075       o 

.03            .21          .07 

4205 

(JTrianguli  Aust 

5-5 

26     6.944 

84.2 

+  5-74I5  +  .0766 

-.087 

+  .0059+     2 

.l8            .78         .27 

4206 

<o  Ophiuchi 

4-5 

26  12.462 

67.8 

+  3-5507  +  -0124 

-.008 

+  .0015       o 

.08            .34         .17 

4207 

PulkM  2363 

5-5 

26  13.078 

86.8 

+  2.  6043  +  .0038 

.OOO 

—  .0048  +     I 

.13            .54         .18 

4208 

ft.  Normae 

5-2 

26  58.576 

90.0 

+4.2523  +  .026i 

-.023 

+  .OOII          O 

.14            .90         .23 

4209 

Br  2107 

6-S 

27  21.228 

77-2 

+  1  .6443  +  .0064 

—  .OO2 

—  .0056+    I 

.09            .44         .I? 

4210 

Br  2101 

5-7 

27  40-380 

62.7 

+  2.9499+.  0055 

—  .OO2 

+  .OOIO         O 

.06            .54         .26 

4211 

Br  2106 

7-3 

27  45-436 

84.0 

+  2.  2488  +.0033 

.OOO 

—  .0026       o 

.12            .42         .16 

4212 

Br  2105 

5-i 

27  55-48I 

74-8 

+  2.8050+.  0048 

—  .OOI 

—  .0126+    I 

.10        .39      .17 

4213 

Br  2118 

5-i 

28  10.571 

75-0 

-0.1354  +.0406 

—  .019 

-.0045-  I 

.03            .24         .09 

4214 

Dpt  1838 

5-7 

28  46.591 

82.6 

+  1.8046  +.OO49 

—  .OOI 

—  .0004       o 

.11            .46        .16 

4215 

/3  Apodis 

4.2 

28  47-393 

79-4 

+8.4547  +  .2440 

-•357 

-.0880+27 

.08            .60         .20 

4216 

L688s 

5-7 

29  20.464 

85.5 

+  4.2070+.  0245 

-.023 

—  .0014       o 

.15             .87          .26 

4217 

Br  2110 

7-i 

29  35.289 

73-9 

+  2.3365  +  .0033 

.000 

—  .0030       o 

.08            .50         .20 

4218 

r  Scorpii 

2.8 

29  39-370 

74-3 

+3.7279  +  .OI50 

—  .012 

—  .0008       o 

.05             .24         .IO 

4219 

L  6890 

4-3 

29  47-567 

81.4 

+  3-9403  +  .oi87 

--015 

+  .OO2I         O 

.10        .52       .18 

4220 

<r  Herculis 

4.2 

3052.728 

78.2 

+  1.9324+.  0041 

—  .001 

—  .0010       o 

.04            .20         .07 

4221 

Pi  140 

6.0 

31    0.780 

76.0 

+0.8397  +  .0167 

-.008 

+  .0019       o 

.09            .40         .l6 

4222 

Br  2108 

6.1 

31    6.216 

73-7 

+  3.I476+.0072 

-.003 

+  .0296+     2 

.06            .26         .11 

4223 

Pi  182 

5-8 

31  17.491 

69-4 

~3-4379+-I96i 

+  .003 

-.0365-13 

.08           .50        .21 

4224 

L  6899 

6.2 

31  21.684 

87.2 

+  4.23I7  +  .0246 

—  .024 

—  .0028       o 

.18           .75         .25 

4225 

£  Ophiuchi 

2-5 

3i  39-094 

73-6 

+  3.  2  996  +  .0086 

—  .006 

+  .0008       o 

.03            .21         .08 

4226 

Y  Herculis 

Var. 

32    0.091 

73-8 

+  2.9ii6  +  .oo5i 

—  .002 

—  .0018       o 

.11            .33         .16 

4227 

L688i 

6-5 

33  14-512 

84-9 

+  6.o338  +  .o827 

-.114 

+  .OOI9+     2 

.14           .72         .23 

4228 

Groomb  2362 

6.1 

33  16.139 

65-4 

+  1.7476  +  .  0052 

—  ,001 

—  .0015      o 

.13            .62         .30 

4229 

Br  2122 

5-8 

33  49-472 

71.0 

+  i.4i5i  +  .oo8i 

-.003 

—  .0016      o 

.07             .27          .12 

4230 

L  6912' 

6.8 

33  49-838 

95-o 

+4.4779+.  0296 

-.032 

—  .0028       o 

.21         1.46         .30 

4231 

L  6912* 

6.0 

33  50-854 

84-5 

+  4.4805  +  .0296 

—  .032 

-  .0003       o 

.18           .78         .27 

4232 

Br  2124 

5-4 

33  Si-943 

69.0 

+  1.4141  +  .0081 

-.003 

—  .0010       o 

.07            .26         .13 

4233 

L  6913 

6.0 

34    6.024 

90.8 

+  4-5268  +  .03O6 

-.034 

+  .0006       o 

.21          1.95          .43 

4234 

P'  i9S 

6-5 

34  56.343 

80.4 

—  2.  6430+.  1360 

-.003 

-.0291-32 

.05            .39        .12 

4235 

Pi  142 

7.0 

35  30-435 

71.8 

+  3-4765  +  -0105 

-.008 

+  .0024       o 

.15            .64         .29 

4236 

L  6940 

6-3 

35  32-432 

83-3 

+  3.6301  +  .01  26 

—  .on 

-  .0045       o 

.13            .82         .25 

4237 

Br  2116 

7-i 

35  37-194 

81.8 

+  2.9754+.  0055 

—  .002 

—  .OOIO          0 

.10        .39      .15 

4238 

Br  2117 

6.0 

35  40-764 

75-i 

+  2.9757  +  .0055 

—  .002 

—  .0004       o 

•°9        -33      -15 

4239 

Br  2114 

S-2 

35  47-300 

72.2 

+  3.465  1  +  .0103 

—  .008 

—  .0017       o 

.06           .27         .12 

4240 

Groomb  2369 

5-5 

35  59.071 

59-5 

+  I.2o6l  +  .OIOI 

-.005 

—  .OOI7—     2 

.12            .63         .34 

4241 

Br  2115 

5-7 

36    0.936 

75-8 

+  3-52I7  +  .OI09 

—  .009 

+  .0018      o 

.11            .62         .24 

4242 

Br  2128 

5-i 

36    1-974 

72.4 

+  1.62  7  1  +  .0060 

—  .002 

—  .0036       o 

.08            .38         .16 

4243 

L  6906 

5-3 

36  35-948 

85.8 

+  5.9999+.  0775 

-•US 

-  .0037       o 

.15            .8l         .25 

4244 

Br  2120 

6.0 

36  38-569 

80.5 

+  3-0349  +  -°°59 

-.003 

-  -0075       o 

.09           .46        .16 

4245 

L  6950 

6.9 

37  12.854 

83-4 

+  3.8504+.  0158 

-•015 

—  .0006       o 

.12            .80        .25 

4246 

£  Herculis  e.g. 

2.8 

37  30.992 

74-7 

+  2.26o8  +  .OO27 

.000 

-•0365-    3 

4247 

Br  2125 

6.1 

37  33-302 

63-6 

+  2.43i8  +  .oo34 

.000 

—  .0002       o 

.15            .52         .28 

4248 

L  6949 

5-8 

37  46.921 

87.8 

+  4.i442  +  .o2io 

-.023 

—  .0026       o 

.13            .75         .21 

4249 

L  6928 

6.0 

37  49-036 

88.7 

+  5.1000+.  0448 

-•057 

.0000+   I 

.20           .90        .27 

4250 

aTrianguliAust 

i-7 

1638    4-377 

68.4 

+  6.3  107  +  .0889 

-.141 

+  .0032+     2 

.05            .30        .14 

4201     4  "I1 7  to 


4211  /3  816.     n««  5"  223° 


4230-1  h  4876.     IOM  2"  12°;  6»8  10"  266°. 


CATALOGUE  OF  6l88  STARS  FOR 


171 


Ho. 

Decl.  1900 

Epoch. 

An.  \  ar.  and 
Sec.  Var. 

3dt 

H-'  and  100  AH' 

Prob.  Errors. 
SEp.  loop/  Sio 

Remarks. 

4201 

o        /           // 

+  42    6    5.15 

70.2 

if          it 

—  8.063+   -267 

tf 

+    -03 

n 

—  .018       o 

n         a        a 

.07       .29    .14 

30  Herculis  g  * 

4202 

-16  23  41.19 

69.4 

—  8.079+  -461 

+     .10 

-  .037       o 

.06      .28    .13 

4203 

+     2   12      9.41 

75-5 

-8.088+  .407 

+    -07 

—  .084      o 

See  Appendix 

4204 

+  21   42   26.30 

77-5 

-8.024+   -347 

+    -05 

—  .024—    I 

.03         .20     .07 

4205 

-65    I?      1.03 

83.0 

-8.042+  .772 

+    -39 

-.058+  I 

.14        .67      .23 

4206 

-21    IS      9.05 

64.8 

-7.951+  .478 

+     .10 

+  .026      o 

.09        .31      .16 

4207 

+  20  41   51.72 

82.8 

-8.042+  .351 

+    -05 

—  .067—    I 

.12         .47      .l8 

4208 

-  43  50    0.02 

82.4 

-7.924+  .573 

+    -i7 

—  .009       o 

.11         .51      .l8 

4209 

+  49  10  42.68 

75-7 

-7.949+  .223 

+    .03 

—  .064—   I 

•09      -37    -l6 

34  Herculis 

4210 

+   5  44    1-54 

57-9 

-7.876+  .399 

+    .07 

—  .017       o 

.14      .50    .30 

28  Herculis  « 

4211 

+  33  43  40-05 

80.8 

-7.875+  .305 

+    .04 

—  .022       o 

.12         .38      .l6 

31  Herculis  * 

4212 

+  n'42    9.36 

73-5 

-7.924+   .378 

+    .06 

-.085-     2 

-07      -33    -14 

29  Herculis  h 

4213 

+  68  59    4.20 

74-2 

—  7.785—   .016 

+    .09 

+  •034-     I 

.04         .22      .09 

15  Draconis  A 

4214 

+  45  48  34.16 

72.0 

-7.742+  .246 

+    -03 

+  .028      o 

.10      .34    .16 

5  2063.  8*3  16"  195° 

4215 

-77  1828.83 

78.8 

-8.115  +  1.128 

+  I.OI 

-.346-12 

.07         .52      .18 

4216 

-4239    7.92 

78.7 

-7-745+  -569 

+  .17 

—  .020      o 

.12        .58     .22 

6  1  G  Normae 

4217 

+  30  42  31.00 

73-7 

-7-723+  -3!8 

+   .04 

—  .018      o 

.08        .45      .18 

32  Herculis 

4218 

—  28    o  31.15 

75-5 

-7.736+  .505 

+     .12 

-  -037      o 

.06        .27      .11 

4219 

-35    258-88 

75-2 

-7-70S+  -534 

+    .14 

—  .017      o 

.11         .56     .22 

76  G  Scorpii  H 

4220 

+  423835.25 

72.9 

-7-565+  -264 

+    -03 

+  •035      o 

.04        .21      .09 

4221 

+  61    i  57.92 

74-3 

—  7.606+  .117 

+    .04 

—  .016      o 

-08        .35      .15 

4222 

-   2    6  40.69 

70.6 

-7.900+  .432 

+    .07 

-.318+   4 

.06        .26     .12 

12  Ophiuchi 

4223 

+  79  1038.25 

58.6 

-7-453-   -466 

+    -53 

+  •"4-   5 

.IO        .48     .27 

4224 

-43  ii  45.28 

79.8 

-7.598+  .574 

+    .16 

-.037       o 

.14         .54      .22 

62  G  Normae 

4225 

—  10  21   53.06 

76.2 

-7.521+  .449 

+    -09 

+  .017      o 

.04         .22      .08 

4226 

+   7  18  36.68 

73-6 

-7.514+  .397 

+    .06 

—  .004      o 

.11         .33      .16 

6*9  to  8*0 

4227 

—  67  14  14.20 

84.0 

-7.458+  .821 

+    .41 

—  .049      o 

.11         .6l      .19 

38  G  Trianguli  Aust 

4228 

+  46  48  56.58 

56.8 

-7-395+  -240 

+    -°3 

+  .OI2          O 

•13      -57    -33 

4229 

+  53    6    2.94 

57-o 

-7.341+  .195 

+    -°3 

+  .O20         0 

.07      .26    .16 

1  6  Draconis 

4230 

-4834    2.10 

86.8 

-7.385+  .610 

+    .18 

—  .024      o 

.16      .75    .24 

1  4  G  Arae  * 

4231 

-4834    1.32 

79.1 

-7.375+   .611 

+    .19 

-.015      o 

.14         .57      .22 

J  4 

4232 

+  53    7  30-92 

54-4 

-7.338+   .195 

+    -03 

+  .O2O         O 

.07         .24      .15 

17  Draconis  * 

4233 

-49  27  22.63 

81.6 

-7-340+  .617 

+    .19 

—  .OOI         O 

.15         .8l      .28 

5  G  Arae 

4234 

+  77  3844.11 

78-3 

—  7.000—   .360 

+    -37 

+  .271-   4 

-06         .35      .13 

Groomb  2373 

4235 

-17  51  51.98 

65.6 

-7.267+  .476 

+   .09 

-  -043       o 

.12         .44      .23 

4236 

-24  16  26.34 

8i-5 

-7.217+  .496 

+     .10 

+  .005-    i 

.I3         .85      .28 

36  G  Ophiuchi 

4237 

+  4  24    7.61 

77-4 

-7.233+   .408 

+    .06 

—  .018      o 

•10        -35      -IS 

36  Herculis  m 

4238 

+  4  24  52.88 

68.5 

-7.225+  .408 

+    .06 

-  .015       o 

.08        .27     .14 

37  Herculis  m1 

4239 

-i?  32  55-47 

68.7 

-7.208+  .474 

+    .09 

—  .007       o 

.06        .24     .11 

24  Scorpii 

4240 

+  56  12  39.98 

56-4 

—  7.103+  .167 

+    .03 

+  .082       o 

•12        .53      .31 

4241 

-  *9  43  58-33 

76.2 

-7.154+  .483 

+    .09 

+  .029      o 

.10      .49    .19 

4242 

+  49    7  25.72 

66.7 

-7.154+  .224 

+    -03 

+  .027      o 

.07         .27      .14 

42  Herculis  * 

4243 

-66  55  21.09 

83.2 

-7.147+  .820 

+   -39 

—  .012       o 

.12         .60      .20 

41  G  Trianguli  Aust 

4244 

+     I    22   19.25 

70.4 

—  7.082+  .416 

+   .06 

+  .050—  I 

.10         .49      .22 

14  Ophiuchi 

4245 

-31  5457-47 

77.6 

—  7.112+  .528 

+     .12 

—  .027      o 

.13         .8l      .29 

86  G  Scorpii 

4246 

+  3147    1.23 

74-5 

-6.675+   -306 

+     .03 

+  •385-   5 

See  Appendix 

4247 

+  27    633.76 

59-o 

-7.106+   .335 

+      .04 

—  .049      o 

.14         .51      .30 

39  Herculis 

4248 

-4039    5.24 

80.  i 

-7.065+   .568 

+     -14 

—  .027       o 

•13      -55    -2i 

87  G  Scorpii 

4249 

-58  19    3-59 

86.4 

—  7.066+  .699 

+     .25 

-  .030      o 

.16         -77      .24 

8G  Arae 

4250 

-68  5038.11 

71.0 

-7.042+   .865 

+    -44 

—  .027       o 

•05         -31      -13 

4232  S  2078. 


4"  in0 


4242  S  2082. 


172 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  POR   IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

|i  and  100  A  p 

Prob.  Errors. 
a  Ep.   loop  aio 

M 

h  m    s 

s      s 

S 

s 

//      //     // 

4251 

Pi  159 

6.2 

16  38  44.825 

79-6 

+  3.7448  +  .oi38 

-.013 

—  .0031   o 

.11    .52   .19 

4252 

L  6953 

7.0 

38  46.531 

95-2 

+  4-3863  +  .0258 

—  .029 

+  .0002   o 

.16   1.  2O   .24 

4253 

L  6936 

5-9 

38  48.471 

91.6 

+  5  -087  5  +  .0440 

-.058 

—  .003  1  +  I 

.20   I.IO   .28 

4254 

Br  2123 

7.2 

39  7-7I7 

77-5 

+  3.6o26+.oii8 

—  .010 

—  .0020   o 

.11     .52    .20 

4255 

ij  Herculis 

3-5 

39  28.044 

74-6 

+  2.055  1  +  .0039 

—  .001 

+  .0029+  I 

.03     .14    .06 

4256 

L  6970 

5-7 

39  57-493 

93-2 

+  4.0934+.  0195 

—  .021 

—  .0029   o 

.20    1.34    .30 

4257 

Br  2130 

7.0 

40  7.709 

73-i 

+  2.9195  +  .0054 

—  .002 

—  .0146+  2 

.09     .40    .17 

4258 

Pi  177 

6.2 

40  10.300 

76.7 

+  2.2H9  +  .0033 

.000 

—  .0060   o 

.13     .70    .27 

4259 

Br  2141 

5-o 

40  13.499 

67.0 

+  0.4057  +  .0232 

—  .on 

+  .OOO6+  I 

.09     .38    .18 

4260 

Br  2129 

6.2 

40  24.781 

75-3 

+  3.  0461  +  .0058 

-.003 

+  .0002   o 

.11     .36    .I? 

4261 

Br  2126 

7.2 

40  43-922 

76.6 

+  3-6678  +  .OI24 

—  .on 

—  .0001   o 

.08     .42    .16 

4262 

Pulkjs  2392 

6.0 

40  50.811 

87-7 

+  2.  7159+.  0040 

—  .001 

+  .0025   o 

.12     .57    .18 

4263 

Groomb  2374 

6.4 

40  55.669 

75-6 

+  1.2224+.  0095 

-.005 

+  .0058—  2 

.10   .45   .19 

4264 

Br  2131 

5-5 

41  1.801 

68.5 

+  2.8783  +  .0047 

—  .002 

—  .0001   o 

.10   .39   .19 

4265 

jj  Arae 

3-7 

41  8.887 

79-7 

+  5-  1  593  +  -°447 

-.063 

+  .0044+  I 

.10   .51   .19 

4266 

Br  2135 

6-3 

42  7.201 

64.6 

+  3.0209+.  0056 

-.003 

—  .OO2I    O 

.14   .54  .28 

4267 

Pi  174 

7.6 

42  9.003 

84.6 

+  3-6423  +  .OH9 

—  .on 

-.0003   o 

.12     .69    .22 

4268 

£6954 

6-5 

42  10.753 

84.1 

+  5-7987  +  -0647 

—  .104 

—  .0009  +  I 

.18     .78    .27 

4269 

Br  2137 

5-3 

42  51.000 

74-4 

+  2.  9509  +.OO5  2 

—  .002 

—  .0016   o 

.10   .32   .15 

4270 

Groomb  2377 

5-o 

43  23-9S3 

81.1 

+  I.I345  +  .0104 

-.005 

+.0033-  I 

.05   .30   .10 

4271 

Pi  185 

7-i 

43  39.122 

81.5 

+  3.  6461  +  .OIl8 

—  .on 

—  .0009   o 

.09     .51    .17 

4272 

«  Scorpii 

2.1 

43  41-129 

75-2 

+  3.8783  +  .oi6i 

-.017 

—  .0496+  I 

.07     .27    .12 

4273 

Br  2138 

4.8 

44  18.043 

75-9 

+  3.3149+.  0080 

—  .006 

+.0058+  I 

.07     .28    .12 

4274 

L  7000 

5-5 

44  35-301 

86.4 

+  4.1749+.  0198 

—  .024 

+  .0009   o 

.15     .70    .22 

4275 

Pi  219 

7-4 

44  48.373 

79-8 

+  1.2300  +.0094 

-.005 

+  .0045   o 

.IO     .50    .18 

4276 

Dpt  1874 

6.0 

4457.611 

83.0 

+  2.  7683  +  .0041 

—  .001 

—  .0017   o 

.12     .45    .17 

4277 

/a1  Scorpii 

3-i 

45  5-749 

78.2 

+  4.os62  +  .oi77 

—  .021 

—  .0006   o 

.09     .34    .14 

4278 

Pi  196 

7.2 

45  10.600 

75-7 

+  3.4443  +  .0092 

-.008 

.0000   o 

.12     .52    .22 

4279 

Br  2142 

6.9 

45  21.852 

79-6 

+  2.  33  20  +.003  1 

.000 

-  -0053   ° 

.11     .39    .16 

4280 

Br  2139 

5-7 

45  28.033 

72-7 

+  2.  9109+.  0048 

—  .002^ 

+  .0035   o 

.IO     .32    .16 

4281 

fi2  Scorpii 

3-7 

45  33-669 

84.6 

+  4.0549  +  .01  76 

—  .021 

—  .0016   o 

.IO     .50    .l6 

4282 

L6983 

6-3 

46  4.730 

85-9 

+  S.5724+.0539 

—  .090 

+  .OOI2+  I 

.20     .8l    .28 

4283 

L  7022 

7-3 

46  7.830 

77-4 

+  3-6740+.oii8 

—  .012 

—  .OOI  I    O 

.14     .70    .27 

4284 

Br  2149 

4.9 

46  18.534 

70.4 

+  1.7542  +  .0053 

—  .001 

+  .0021+  I 

.09     .28    .14 

4285 

Br  2140 

5-7 

46  20.652 

57-9 

+  3.0409  +  .0056 

-.003 

—  .0008   o 

.11     .48    .27 

4286 

Br  2145 

6.1 

46  44-757 

74-8 

+  2.3398  +  xx>32 

.000 

—  .0007   o 

.09     .38    .16 

4287 

L  7016 

5-i 

46  56.390 

85.0 

+  4.2234+.O2OI 

-.025 

+  .0005   o 

.11     .72    .21 

4288 

L7oi7 

5-4 

47  o-774 

86.4 

+  4.  2005  +  .01  97 

-.025 

—  .0003   o 

.l6     .70    .23 

4289 

L  7019 

6.1 

47  23-075 

87-5 

+  4.2287  +  .0201 

—  .026 

+  .0003   o 

.16     .75    .24 

4290 

Pi  214 

6.1 

47  30-912 

74-5 

+  3-5372  +  .oioo 

—  .009 

-.0037   o 

•13     -56    .23 

4291 

Br  2144 

6.7 

47  3I-636 

85-3 

+  2.  7292  +  .0039 

—  .001 

+  .0006   o 

.04     .33    .09 

4292 

£  Scorpii 

3-5 

47  32-754 

85.6 

+  4.2  1  28  +  .0204 

—  .026 

—  .OIO9+  2 

.12     .63    .19 

4293 

Groomb  2391 

6-3 

47  32-905 

76-5 

—  2.  7292  +  .  I2O7 

+  •037 

+  .0176—30 

.07     .46    .17 

4294 

Br  2147 

5-3 

47  36-538 

80.2 

+2.4859  +.0033 

.000 

+  .OOI2    O 

.11     .39    .16 

4295 

L7°33 

6.6 

48  13.108 

84-4 

+  3-8223  +  .OI34 

-•015 

+  .0033   o 

•13   -75   -23 

4296 

L  7024 

6.8 

48  25.942 

92.9 

+  4.6i4o+.0274 

-•°39 

—  .0019   o 

.15     .98    .22 

4297 

L  7038 

7.6 

48  45-365 

88.8 

+  4.U45  +  .OI78 

-.023 

—  .0009   o 

.15     .78    .22 

4298 

Br  2143 

7-4 

48  48.155 

77-7 

+  3.62ii  +  .oio8 

—  .Oil 

-.0005   o 

.10   .44   .17 

4299 

L  6989 

6.2 

48  49.569 

79.8 

+  6.403  1  +  .0802 

-.161 

-.0034+  I 

.16     .75    .28 

4300 

Br  2151 

5-6 

16  49  10.506 

67-5 

+  2.  2734+.  0033 

.000 

-  .0075   o 

.07     .28    .14 

4266  2  2096.    9^3  23"  c 


4284  /S  627.     IOM  i'/8  318°. 


CATALOGUE  OF  6l88  STARS  FOR  IQOO 


173 


No. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3dt 

(i'andiooA|i 

Prob.  Errors. 
SEp.  100  (i'  Sio 

Remarks. 

4251 

o        /           // 

—  28  19  24.09 

78.6 

ft                      It 

-    6.950+.  514 

// 

+.11 

+  .009       o 

it          ft       tt 

.12         .51      .20 

90  G  Scorpii 

4252 

-  46  20  46.45 

92.0 

—    6.998  +  .603 

+•17 

—  .041      o 

.13         .83      .20 

10  G  Arae 

4253 

-58      927-I3 

83.8 

—    6.999  +.698 

+  .24 

-  -045       o 

.15         .69      .24 

9  G  Arae 

4254 

-22   5951.85 

77-2 

-    6.952  +  495 

+  .10 

—  .024      o 

.11         .47      .19 

15  Ophiuchi 

4255 

+  39    644.01 

68.1 

-    6.995  +  .285 

+  .03 

-  -095       o 

.04         .l6      .08 

4256 

-39  IJ  36-61 

91.4 

-    6.889+.  563 

+  .14 

—  .029      o 

.l6      I.  II      .26 

91  G  Scorpii 

4257 

+  6  16  47.06 

69.4 

-   7-I23  +  .40I 

+  .06 

-.277-     2 

.08         .34      .l6 

41  Herculis 

4258 

+  34  13  22.56 

70.6 

-   6.792  +  .305 

+  .03 

+  .050—     I 

.12         .52      .24 

4259 

+  64  46  42.88 

64.0 

-   6.855  +  .058 

+  .05 

—  .017       o 

.06         .27      .14 

1  8  Draconis  g 

4260 

+     I    12   12.56 

73-4 

—   6.  822  +  .420 

+  .06 

.000      o 

.11         .33      .16 

1  6  Ophiuchi 

4261 

—  25  20  47.20 

77-7 

-   6.815  +  .506 

+  .10 

—  .019      o 

.09         .40      .l6 

25  Scorpii 

4262 

+  155547.67 

81.9 

-   6.827  +  .376 

+  .05 

—  .040      o 

.11         .47      .I? 

4263 

+  55  52  25.64 

71.2 

-   6.703  +  .  171 

+  .03 

+.077+  I 

.09         .36      .I? 

4264 

+  8  45  53.38 

64.2 

-   6.756+.398 

+  .05 

+  .016      o 

.09         .32      .I? 

43  Herculis  i 

4265 

—  58  51  46.08 

77-8 

—   6.807  +  .  712 

+  -25 

-.045+  I 

.09         .43      .16 

4266 

+     2   14  40.52 

58-5 

—   6.  701  +  .  418 

+  .06 

—  .019       o 

.11         .40      .23 

19  Ophiuchi  * 

4267 

—  24  20  52.03 

81.2 

-   6.  694  +.504 

+  .10 

—  .015       o 

.11         .56      .20 

Magns.  discordant 

4268 

—  65   12      3-12 

82.7 

—   6.  699+.  800 

+  •33 

—  .022       o 

.13         .63      .22 

44  G  Trianguli  Aust 

4269 

+  5  25  33-3° 

74-2 

-   6.  667  +  .409 

+  .06 

-  -°45       o 

.11         .34      .16 

45  Herculis  / 

4270 

+  56S737-67 

75-6 

-   6.520+.  160 

+  .03 

+  .056      o 

.06         .36      .14 

4271 

-24  27  54.16 

80.7 

-   6.578+.  505 

+  .10 

-.023       o 

.IO         .51      .l8 

1  8  Ophiuchi 

4272 

-34    642.37 

72.4 

-   6.8n  +  .53o 

+  -I3 

-.258-   7 

.07         .31      .14 

4273 

—  IO  36  22.  6l 

7°-5 

—   6.  604  +.46  1 

+  .08 

—  .102+     I 

.06         .29      .13 

20  Ophiuchi 

4274 

-41      331.06 

80.6 

-   6.480+.  579 

+  .14 

—  .002       o 

.12         .51      .19 

97  G  Scorpii 

4275 

+  5535  13.21 

77-5 

-   6.463  +  .  173 

+  .03 

-.003+  I 

.10      .45    .18 

4276 

+  13  26    8.01 

70-5 

-   6.475  +  .385 

+  .05 

—  .028       o 

.10      .34    .17 

22103.   ioM5"39° 

4277 

-37  52  32-75 

74-2 

-   6.466+.  563 

+  •13 

-  .030      o 

.08         .33      .14 

4278 

—  l6  22   29.02 

73-6 

-   6.4S5  +  .478 

+  .07 

—  .026      o 

.11         .44      .19 

4279 

+  30    8  io.ii 

76.8 

-   6-339+-324 

+  .04 

+.075-  I 

.IO         .36      .l6 

48  Herculis 

4280 

+   7  25  12.93 

66.7 

-   6.413  +  .405 

+  .05 

—  .008       o 

.10      .33    .17 

47  Herculis  k 

4281 

-37  5049.19 

75-o 

-   6.425  +  .563 

+  •13 

—  .028      o 

.09      .36    .16 

4282 

—  63    6  12.29 

77-8 

-   6.377  +  .774 

+  .28 

—  .023       o 

•13      -57    -23 

17  G  ATX 

4283 

-25  25  51.86 

75-4 

-   6.374+.5io 

+  .09 

—  .024       o 

.14      .77    .30 

See.     13"  a»S  5° 

4284 

+  46    9  25.83 

64.2 

—   6.408  +  .246 

+  .03 

-.073      o 

.08      .26    .15 

52  Herculis  * 

4285 

+    i  23    9.95 

57-6 

-  6.358  +  .423 

+  .06 

—  .026      o 

.09        .39     .22 

21  Ophiuchi  * 

4286 

+  295837.15 

74-5 

—   6.306  +  .  326 

+  .04 

—  .007       o 

.07         .32      .13 

50  Herculis 

4287 

-42  ii  44-51 

81.3 

-  6.302  +  .588 

+  •13 

—  .019       o 

.09        .54     .18 

103  G  Scorpii  £l  * 

4288 

-41  38  24.22 

83-1 

-   6.289+.  584 

+  .14 

—  .012       o 

.14         .6l      .22 

101  G  Scorpii,  Cluster 

4289 

-42  18  48.39 

81.1 

-   6.259+.S88 

+  .14 

-.013       o 

•13         -57      -21 

105  G  Scorpii,  Cluster 

4290 

-20  1454-22 

76-3 

-   6.273  +  .492 

+  .08 

-  .038       o 

.12         .51      .21 

4291 

+  15    830.60 

80.5 

—   6.241  +  .381 

+  .05 

—  .007       o 

.05         .28      .IO 

49  Herculis 

4292 

—  42  ii  24.02 

82.6 

-  6.470+.  585 

+  .14 

-.237-     2 

.10      .51    .17 

104  G  Sc.  £3.    Cluster 

4293 

+  77  41  11.20 

77-8 

-  6.026-.  373 

+  •33 

+  .2O6+    2 

.06      .37    .14 

Kustner.     IOM  3"  190° 

4294 

+  2449  27.73 

73-9 

-  6.22S  +  .347 

+  .04 

+  .O02         0 

.10      .34    .16 

51  Herculis 

4295 

-30  25  22.95 

83.0 

-  6.I74+-533 

+  .10 

+  .003       o 

.12         .58      .20 

107  G  Scorpii 

4296 

-  50  30  44.60 

89.2 

—   6.  184+.  642 

+  .16 

-  .025      o 

•13         '67      -19 

21  G  Arae 

4297 

-392033.21 

81.8 

-   6.I50+.574 

+  •13 

—  .018       o 

.13         .54      .20 

io8GSc.(B.  A.  C.  hasp) 

4298 

-23   20  53.79 

83-9 

-   6.159+.  505 

+  .09 

-.031       o 

.11         .58      .19 

22  Ophiuchi 

4299 

—  69      636.48 

78.7 

—   6.  151  +  .  891 

+  •39 

—  .025       o 

•14      -59    -23 

45  G  Trianguli  Aust 

4300 

+  31   52      1.30 

66.5 

—   6.I2O+-3I7 

+  .03 

-.023-  I 

.06      .27    .13 

53  Herculis 

4285  OS  315.    8M  o'.'S  159°. 


4287  See.    s1C7-6*2  o'/2  175°,  Cluster. 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  100  A  |i 

Prob.  Errors. 
aEp.      ioo)i     a  10 

M 

b    m         5 

8                     S 

S 

s 

//          rt         n 

4301 

Br  2146 

5-5 

16  49  14.967 

66.2 

+  3.  203  7  +  .0066 

-.005 

—  .0023       o 

.IO            .44         .21 

4302 

t  Ophiuchi 

4-3 

49  16.561 

70.8 

+  2.8365  +  .0044 

—  .002 

—  .0038       o 

.07            .30         .14 

4303 

Pi  232 

6.9 

50  15.438 

76.8 

+  3-4593  +  -0087 

-.008 

+  .0057       o 

.08            .46         .17 

4304 

£  Arae 

3-° 

50  20.572 

78.4 

+  4.9483  +  .0342 

-•055 

-.0027+  I 

.09            .48         .l8 

4305 

Groomb  2389 

7.0 

50  22.685 

84.1 

+  1.893  7  +  .0049 

—  .001 

+  .0104+   4 

.09            .52         .l6 

4306 

L  7°4S 

5-8 

5°  34-857 

86.7 

+  4-6i84+.o267 

—  .040 

—  .0004+    i 

.20            .80         .27 

4307 

Pulk»  2414 

5-8 

50  36.607 

87.0 

+  2.  5838  +  .0034 

—  .001 

+  .0042       o 

.11            .58         .17 

4308 

Pi  228 

5-7 

50  39-991 

88.4 

+  3.  903  2  +  .01  42 

-.017 

—  .0008       o 

.15            .84         .24 

4309 

Br  2148  m 

5-7 

50  46.097 

84.2 

+  3.6i32  +  .oio4 

—  .Oil 

—  .0005       o 

.07            .45         .14 

43io 

Br  2154 

6.4 

5°  56.557 

76.6 

+  2.  4538  +  .0033 

—  .001 

+  .0009       o 

.IO            .36         .l6 

43" 

Br  2152 

5-6 

50  58.482 

72.6 

+  2-6355  +  .  0036 

—  .001 

—  .0075       o 

.10        .38      .17 

43« 

Pi  236 

6.7 

51  11.389 

75-8 

+  3.  5  207  +  .0094 

—  .010 

—  .0008       o 

.IO            .48         .20 

4313 

e  Arae 

4.1 

51  36.712 

76.8 

+  4-7675  +  .0293 

-.047 

—  .0004       o 

.IO            .48         .19 

4314 

Groomb  2390 

7.2 

52  40.183 

62.3 

+  0.8150+.  0137 

—  .006 

+  .0057       o 

.14            .62         .32 

4315 

K  Ophiuchi 

3-2 

52  56.074 

74-4 

+  2.8376+.  0043 

—  .002 

—  .0199       o 

.03            .l6         .06 

43i6 

Br  2157 

6.7 

53  24.686 

73-o 

+  2.  4620  +.OO3  2 

—  .001 

+  .0006      o 

.11             .50         .21 

4317 

Groomb  2393 

7-4 

53  46.326 

78.8 

+  o.59i2  +  .oi67 

-.007 

-.0454+  4 

.10            .57          .20 

43i8 

Br  2153 

6.1 

53  50-278 

75-i 

+  3.6678+.  0107 

—  .012 

—  .0003       o 

.IO            .46         .19 

4319 

Br  2155 

5-9 

54    1-905 

75-9 

+  3.  6690+.  0107 

—  .OI2 

+  .0035      o 

.IO            .48         .19 

4320 

L?°73 

5-5 

55    9-276 

80.8 

+  4-7797  +  -0286 

-.048 

—  .0010+  3 

.16            .75         .27 

4321 

L  7089 

5-3 

55  24-576 

85-1 

+  3.8734+.OI30 

-.017 

—  .0009      o 

.10        .66      .20 

4322 

Br  2169 

S-o 

55  28.679 

66.5 

+  0-322I  +  .O2O4 

-.008 

+  •0394-   4 

.08        .40      .20 

4323 

Br  2159 

$-1 

55  47-i6o 

82.0 

+  3.1602  +  .  0060 

—  .OO5 

-.0036+    i 

.07        .40      .13 

4324 

L  7072 

6.0 

55  53-649 

84.2 

+  5.092  1  +  .0346 

-.063 

—  .0018       o 

.18        .78      .27 

4325 

Br  2170  m 

6.8 

55  55-490 

67.8 

+  O.2862  +  .O2O8 

-.008 

—  .0072—    i 

.10        .54      .25 

4326 

Br  2158 

6.7 

56    0.182 

73-9 

+  3  -SOS0  +-0087 

—  .O09 

—  .0031       o 

.08        .44      .18 

4327 

e  Ursae  Min 

4-5 

56  12.208 

66-5 

-6-3039  +  -3I5I 

+  .516 

+  .0072—    i 

.03        .15      .07 

4328 

£  Herculis 

3-8 

56  27.799 

75-8 

+  2.  2941  +  .003  1 

—  .OOI 

—  .0036       o 

.03        .18      .07 

4329 

PulkM  2420 

6.0 

56  44-767 

87.5 

+  2.5314+.  0033 

—  .OOI 

—  .0010      o 

.12            .58         .18 

4330 

Pi  291 

6-3 

57  3i-4i6 

7i-5 

+  1.097  1  +  .0095 

-.005 

-..0057       o 

•00          -38        -I? 

4331 

Pi  269 

7.0 

57  5i-5i6 

76.7 

+  3-6875  +  .OI03 

-.013 

—  .0005      o 

.12            .51          .21 

4332 

Br  2165 

5-4 

57  54-842 

79-3 

+  2.2I3I  +  .0032 

—  .OOI 

.OOSO         0 

.06            .39         .14 

4333 

L  7111 

6.9 

58    9-596 

88.0 

+  3-7763  +  -on6 

-.015 

+  .0065+    2 

.13            .98         .25 

4334 

L  7109 

S-o 

58  14-564 

80.2 

+  3-94I3  +  .OI32 

-.018 

+  .0006       o 

.11            .45          .17 

4335 

L  7069 

7-i 

58  29.028 

83-7 

+  6.3781  +  .0682 

-.166 

—  .OOII+    2 

.l6            .84         .28 

4336 

Br  2163 

5-3 

58  32-939 

74-8 

+  2.  7467  +  .0038 

—  .OOI 

+  .0013      o 

.11            -44         -19 

4337 

Br  2160 

7.0 

58  34-363 

79-3 

+  3-6853  +  -0103 

-  -013 

—  .0018+     I 

.12           .58         .22 

4338 

Pi  273 

6.4 

58  49.814 

75-o 

+  3.5501  +  .0088 

—  .010 

—  .0005       o 

.13           .51         .22 

4339 

Pi  277 

7-3 

59    0.906 

68.9 

+  3.3216+.  0068 

—  .006 

—  .0002      o 

.11           .51         .24 

4340 

Br  2164 

6.1 

59    3-522 

71.0 

+  2.7547  +  .0038 

—  .OOI 

—  .0022      o 

•09           -36        -17 

4341 

Br  2166 

6.4 

59  21.881 

66.7 

+  2.7585  +  .  0039 

—  .OOI 

+  .OOIO+     I 

.12           .42         .21 

4342 

Paris  21575 

8.0 

59  50-947 

80.4 

+  3.i2i8  +  .oo72 

-.005 

—  .0611+   7 

.12           .98         .31 

4343 

Br  2168 

6.8 

16  59  54.833 

77-8 

+  2.  1530+.  0034 

—  .OOI 

+  .0032       o 

.11            .68         .24 

4344 

Br  2162 

6-5 

17    o  13.481 

76-5 

+  3-577°+  -009° 

—  .on 

—  .0021+   I 

.11            .48         .19 

4345 

Pi  289 

5-7 

o  22.987 

72-5 

+  3.  0890  +.005  2 

—  .004 

—  .0004       o 

.11            .48         .21 

4346 

Br  2167 

4-9 

o  44.441 

78.2 

+  2.  7805  +.0038 

—  .OOI 

+  .0036      o 

.06           .28         .11 

4347 

L  7102 

6.8 

o  58.667 

86.5 

+  5.4565  +  -0399 

-.088 

—  .0005       o 

.20           .8l         .27 

4348 

Dpt  1898 

6-5 

I  41.740 

78.3 

+  3.io86  +  .oo53 

—  .004 

+  .0019       o 

•!3        -75      -27 

4349 

Pi  307 

6.7 

2      2.128 

69.1 

+  1.8243  +  .0042 

—  .002 

—  .0008       o 

.14       .57      .27 

4350 

Pulkjj  2434 

6.0 

I?      2     4.175 

87.4 

+  2.  5358  +  .  0034 

—  .OOI 

—  .0080       o 

.12        .58      .18 

4309/81117. 


4310  S  2110.     IOM  18"  92° 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


175 


Ho. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'andiooAn' 

Prob.  Errors. 
5Ep.  100  M.'  810 

Remarks. 

4301 

0           /               // 

-   5  59  25-99 

65-7 

-   6.I20+.447 

ft 

+  .06 

—  .029       o 

.09      .39    .20 

23  Ophiuchi 

4302 

+  10  19  47.30 

74.1 

-   6.I34+-396 

+  .05 

-  .046       o 

.06         .28      .12 

4303 

-  16  38  49.21 

77-8 

-   5.  974+.  484 

+  .07 

+  .034+   i 

.08         .47      .I? 

4304 

-55495S-88 

77-2 

—   6.  04  1  +  .690 

+  .20 

—  .041       o 

.08         .40      .15 

43<>5 

+  42^948.24 

81.9 

-   6.327  +  .  267 

+  .02 

-  -33°+   2 

.08         .41      .14 

4306 

-50  28  58.54 

79-2 

-   6.03  1  +  .645 

+  .16 

-  -051       o 

.14         .57      .22 

4307 

+  21    7    9.60 

83.0 

-   5-983  +  -363 

+  .03 

—  .006+   i 

.11         .47      .I? 

4308 

-33    6    3.47 

81.6 

-   5.  982  +  .546 

+  .11 

—    .010         0 

.15         .69      .25 

113  G  Sc.  (also  27  F) 

4309 

-22  59  29.37 

84.2 

-   5.968  +  .  505 

+  .09 

-  .004      o 

.08         .48      .15 

24  Ophiuchi  * 

+  25.53  29-67 

72.7 

-   S-979  +  -344 

+  -03 

—  .029       o 

.IO         .32      .l6 

56  Herculis  * 

43" 

+  183534.43 

69.5 

-   5-939+  -368 

+  .04 

+  .008-  I 

.09         .34      .16 

54  Herculis  * 

43" 

-19  22  53.95 

76.3 

-   5.  948  +  .493 

+  .08 

—  .019      o 

.11         .42      .l8 

South  8M  5"  232° 

4313 

-53    024.06 

75-4 

-   5.  893  +  .667 

+  .18 

+  .001       o 

.09         .39      .16 

25  G  Arae  t1 

43H 

+  60  31  20.42 

5S-i 

-   5.817  +  .  117 

+  .03 

—  .012+   I 

•13      -55    -33 

4315 

+  931  49-°4 

73-6 

-   S-797  +  -396 

+  .04 

-  -014-   3 

.03      .16    .06 

43i6 

+  25  30  25.04 

75-8 

-   5.  744+.  346 

+  -03 

—  .001       o 

.08      .37    .15 

57  Herculis 

4317 

+  62  15  31.86 

75-7 

-   5-763  +  -078 

+  .04 

-  .050-   6 

.09      .44    .18 

—  24  56  25.86 

74-3 

-   5-729+-5I5 

+  .09 

—    .022          0 

.10      .43    .18 

66  G  Ophiuchi 

4319 

—  24  50  11.82 

78.1 

+  .09 

-  .065       o 

.09      .39    .16 

67  G  Ophiuchi 

4320 

-53    5  12.94 

72.6 

-   5.748+.  672 

—  .151       o 

.12         .51      .23 

31  G  Arae  i2 

4321 

-31  594I-67 

82.7 

-   5-637  +  -545 

+  .09 

—  .062       o 

.10      .53    .18 

117  G  Scorpii 

4322 

+  65  17  15.17 

60.4 

-   5.520+.  053 

+  .05 

+  .049+   5 

.06         .24      .13 

19  Draconis  h 

4323 

—   4^4  22.20 

78.9 

-   5-632  +  -444 

+  .05 

-  .088      o 

•07      -34    -13 

30  Ophiuchi 

4324 

-57  34    3-7° 

84-9 

—   5.  563  +  .  716 

+  .20 

—  .029      o 

•15      -75    -24 

32  G  Arae 

4325 

+  65  ii  28.30 

61.8 

-   5.502  +  .042 

+  .05 

+  .030-  I 

.09      .32    .18 

20  Draconis  h*  * 

4326 

—  18  44  18.67 

70.7 

-   5-5S2  +  -493 

+  .07 

—  .027       o 

.08      .35    .16 

29  Ophiuchi 

4327 

+  82  12    7.66 

75-5 

—   5.510—  .880 

+  •94 

—  .001+   I 

.03      .13    .05 

4328 

+  31    4  24.46 

71.1 

-   5.466+.  323 

+  -03 

+  .021       o 

.04         .21      .09 

4329 

+  22  4645.88 

83-4 

-  5-489+  -357 

+  -03 

—  .026      o 

.12         .48      .17 

4330 

+  5650    6.61 

64-3 

-  5-37I  +  -I56 

+  -03 

+  .026—    I 

.08         .31      .16 

4331 

-25  33  !9-52 

76.2 

—  5-396  +  -520 

+  .08 

—  .027       o 

.12         .51      .21 

28  Ophiuchi 

4332 

+  33  42  46.10 

73-i 

-   5-376  +  -3J3 

+  .02 

—  .012       o 

.06        .31      .13 

59  Herculis  d 

4333 

-  28  26    3.49 

88.1 

-   5.622  +  .  534 

+  .09 

-  .278+  I 

.14      1.07      .27 

73  G  Ophiuchi 

4334 
4335 

-33  5856-31 
-  68  42  38.96 

70.0 
79.0 

-   S-336+-  556 
-   5.358+  .898 

+  .10 

+  -34 

+  .001       o 
—  .042      o 

.IO        .42      .20 
.12         .6l      .22 

120  G  Scorpii  k 
46  G  Trianguli  Aust 

4336 

+  14  14    8.73 

72.8 

-   5.378+.  388 

+  .04 

—  .067       o 

.09         -37      .17 

(32  Ophiuchi) 

4337 

-2530    9.77 

76.8 

-   5-393+  -520 

+  .08 

-  .084      o 

.12        .51      .21 

31  Ophiuchi 

4338 

—  2O  21    I5.O2 

79.0 

—   5-325  +  -5oi 

+  .07 

-  -037      o 

.12         .58      .22 

4339 

-i°S6  53-5° 

72.1 

-   5.  287  +  .469 

+  .06 

—  -015      o 

.IO         .48      .21 

4340 

+  13  4449-59 

62.3 

-   5-3I2  +  -389 

+  .04 

—  .044      o 

.09         .32      .l8 

(33  Ophiuchi) 

4341 

+  13  42  40.49 

54-9 

-   S-376+-  390 

+  .04 

-  -134      o 

.12         .49      .30 

(34  Ophiuchi) 

4342 

-  4  5$  48.38 

79-2 

-   6.348+.  433 

+  -°5 

-1.147-  9 

.11         .87      .29 

4343 

+  35  33  l8-9! 

72-3 

-   5-239+  -3°6 

+  .02 

-  -043     ° 

.IO         .42      .19 

61  Herculis  (c) 

4344 

-2i  25  33.63 

75-o 

—   5.  254+.  506 

+  .07 

-  .085       o 

.10      .39    .17 

79  G  Ophiuchi 

4345 

-   o  45  17.96 

74-4 

—   5.161  +  .  437 

+  .05 

—  .005       o 

.09         .40      .17 

4346 

+  12  52  40.64 

77-o 

-   5-143  +  -394 

+  .04 

—  .017       o 

.05         .24      .IO 

60  Herculis 

4347 

—  61  32  38.62 

79.0 

-   5.106+.  771 

+  .22 

.000      o 

-14      -57    -23 

74  G  Arae 

—                                   U             ,,         ft      ft 

4348 

-    i  31  17-74 

75-4 

—   5.092  +  .441 

+  .05 

-  .047       o 

.09      .46    .18 

2  2122.     9M  20"  280° 

4349 

+  43  5652.17 

56.4 

-   5.030+.  259 

+  .02 

-  .014       o 

.13      .46    .28 

4350 

+  22  13    9.39 

83.6 

-   5.065  +  .359 

+  .03 

-  .052-  I 

.12         .49      .l8 

4311/8954.     ioM3"i75° 


4323  S  2118.     7*|I3-71(I8  <  i"i  probably  binary. 


i76 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

H.  and  100  A  n 

Prob.  Errors. 
aEp.      loop,     aio 

M 

h    m        s 

9                     5 

S 

s 

ft           //         // 

4351 

Pi  310 

6.4 

17      2   10.575 

84.7 

+      1.  5902  +.0056 

-  .003 

+  .0036+    i 

.12            .62          .20 

4352 

Pi  297 

6.4 

2  26.384 

77-9 

+     3-4799+.  0078 

—  .009 

.0000       o 

.10       .50      .19 

4353 

Pi  303 

6.2 

3    4-iio 

73-9 

+     3.  0930+.  005  I 

—  .004 

—  .0008       o 

.11            .51          .22 

4354 

/i  Draconis  m 

5.1 

3  15-765 

65-2 

+      1.  2407  +  .OO74 

—  .004 

—  .0083  —    i 

.09            .40         .20 

4355 

L  7147 

5-2 

3  27.471 

82.6 

+     4.3396+.  0176 

-  -031 

—  .0031+    i 

.15            .78         .26 

4356 

Radcl  3658 

5-7 

4  16.207 

91.8 

+  3.3i57  +  .oo6s 

—  .006 

+  .0055+    i 

.12            .78         .18 

4357 

Br  2173 

7-2 

4  25.507 

82.0 

+  2.4776+.0032 

—  .001 

—  .0003      o 

.12            .38         .16 

4358 

Pi  3 

5-6 

4  29.333 

70.2 

+  2.I258+.0033 

—    .001 

—  .0016       o 

.10        .54      .23 

4359 

Groomb  2415 

6.4 

4  30.992 

83-3 

+  I-9559+.0038 

—  .001 

—  .0025      o 

.06            .46         .14 

4360 

17  Ophiuchi  m 

2.4 

4  38.550 

72.6 

+  3-4372  +  -007I 

-  .008 

+  .0025—    I 

.03            .16         .07 

4361 

i)  Scorpii 

3-3 

4  59.418 

73-3 

+  4.2896+.  0169 

—  .029 

+  .0022+    4 

.09            .40         .l8 

4362 

L  7159  m 

5-8 

5  21.714 

85.8 

+  4.1366+.  0144 

—  .024 

-.0018+     I 

.12        .66      .20 

4363 

Pi  3" 

7-2 

5  57-549 

84.4 

+  3.7278+.  0097 

—  .014 

-.0043+     ! 

.14        .78      .24 

4364 

Pulkw  2441 

5-3 

6  18.780 

87.9 

+  I-94I5  +  .0037 

—  .001 

—  .0047       o 

.12            .60        .18 

4365 

Br  2177 

6-5 

654.712 

73-9 

+    2.  4822  +  .003  I 

—  .001 

—  .0012      o 

.09           .58         .23 

4366 

Br  2178 

5-6 

"7  44.924 

64.8 

+    2.8261  +  .0038 

—  .002 

—  .0001       o 

.13            .48        .26 

4367 

Br  2174 

7-2 

8    0.497 

78.4 

+  3-73I2  +  .0094 

—   .014 

—  .0008+   I 

.IO           .46         .18 

4368 

£  Draconis 

3.1 

8  29.787 

74.1 

+  o.i66i  +  .oi9O 

—  .006 

—  .0021—    I 

.04            .21          .08 

4369 

L  7179 

5-7 

8  45-355 

85.2 

+  3-9333  +  -OI" 

—  .019 

+  .0006      o 

.13            .78         .23 

4370 

Br  2176' 

5-4 

9  11.823 

77-o 

+  3.6860+.  0107 

—  .014 

-.0351+  8 

.08            .42          .l6 

4371 

Br  2176  2 

5-4 

9  n-944 

73-4 

+  3.6845+.  0107 

—  .014 

-.0366+  8 

.08            .38         .16 

4372 

Br  2179 

7-o 

10    4.424 

75-o 

+  3.  6840+.  0106 

—   .014 

-.0361+  8 

.IO            .44         .l8 

4373 

o1  Herculis 

Var. 

10    5-245 

66.7 

+    2.  7340+.  0034 

—  .002 

—  .0008       o 

.02            .12          .06 

4374 

a2  Herculis 

6-5 

10    5-555 

74-8 

+   2.7344  +  .0034 

—  .002 

—  .0004      o 

.09            .62          .24 

4375 

L  7202 

5-7 

1033.285 

82.9 

+  3.8979+.  0106 

—  .019 

-.0077       o 

.IO            .52          .l8 

4376 

8  Herculis 

3.1 

10  55-435 

79.4 

+    2.  4628+.  0033 

—  .001 

—  .0018+   I 

.04            .20         .07 

4377 

i  Apodis 

5-8 

10  56.465 

80.7 

+  6.66i4+.o6i4 

—  .209 

-.0025+  I 

.12            .62          .22 

4378 

L  7194 

5-7 

n  27.710 

89.2 

+  4.5427  +  -0163 

-  .036 

+  .0919—   I 

.20         1.98         .46 

4379 

Br  2184 

4-9 

ii  28.609 

83.8 

+  3.0781  +  .0046 

—  .004 

—  .0018      o 

.07            .45          .14 

438o 

i  Apodis 

4.8 

ii  32.304 

82.9 

+  6.  2467  +  .0498 

-  .163 

-.0063—  I 

.l6            .8l          .27 

438i 

IT  Herculis 

3-2 

ii  33-834 

78.6 

+  2.0883  +  .0033 

—  .001 

—  .0021       o 

.03            .21          .08 

4382 

Pi  61 

5-6 

ii  40.778 

72.9 

+  0.5I03  +  .OI35 

—  .006 

+  .0015-     2 

.IO            .51          .22 

4383 

Pi  31 

6.9 

ii  54-651 

85-4 

+  3-6536+  -0081 

—  .014 

-  -0055      o 

.12             .69         .21 

4384 

Br  2181 

5-5 

n  54.696 

78.8 

+  3.  6544  +.008  1 

—  .014 

—  .0048      o 

.11             .42         .17 

4385 

Br  2182 

7.0 

12     0.613 

80.8 

+  3.  6601  +  .0082 

-  .013 

+  .0068+  I 

.11             .50         .l8 

4386 

L  7215  m 

6.0 

12     8.746 

81.2 

+  4.0796+.  0116 

—  .020 

+  .0959+  3 

.15      1.16      .37 

4387 

L  7088 

6.1 

12  45.067 

78.4 

+  ii.i2o8+.2378 

-1.387 

+  .0017  +  11 

.07      .57     .19 

4388 

Br  2194 

Var. 

13  37.883 

76.1 

+  2.2I38+.003I 

—  .001 

—  .0016      o 

.07      .34    .14 

4389 

Br  2191 

5-3 

13  54-856 

71.0 

+  2.8i82  +  .oo37 

-  -003 

—  .0002+   i 

.10        .42       .19 

4390 

Pi  43 

6.2 

14     4-057 

77-7 

+  3.  4888  +.0066 

—  .010 

—  .0003      o 

.09        .46      .18 

4391 

Br  2195 

4.8 

14  13.288 

52.2 

+    2.  0676  +.OO3  1 

—    .001 

-  .0034      o 

.09     .36    .23 

4392 

L  7199 

6.0 

14  37.638 

91-3 

+  5-62I2  +  .0337 

-  -105 

+  .0030      o 

.20      I.  II      .28 

4393 
4394 

Pi  64 
i  Ophiuchi 

6.0 

4-5 

14  53.185 
15     0.623 

73-9 
68.6 

+  2.35I2  +  .0030 
+  3.  5928+.  0074 

—  .001 

—  .on 

+  •0932       o 

+  .0171+     2 

.15        .69      .29 
.06        .28      .13 

4395 

v  Serpentis 

4.4 

IS  12.130 

64-3 

+  3-37I4+-oo58 

-  .008 

+  .0025      o 

.09      .38     .19 

4396 

Groomb  2433 

6.7 

15  16.590 

72.8 

+  0.7227  +  .0108 

-  -005 

—  .0060      o 

.12            .58         .25 

4397 

Br  2188 

6.9 

IS  33-510 

78.8 

+  3-6753  +  -0078 

—  .014 

-.0031       o 

.IO            .52          .19 

4398 

t  Aras 

5-5 

15  45.658 

87.1 

+  4.4979+.  0158 

-  -038 

+  .0007+  I 

.18         I.I?          .32 

4399 

0  Ophiuchi 

3-2 

15  52.060 

73-2 

+  3.6811  +  .0078 

—  .014 

—  .0001       o 

.03           .21         .09 

4400 

Pi  68 

5-3 

17  15  54.425 

75-9 

+    2.  6426  +.003  2 

—  .001 

+  .0005       o 

.16           .72         .30 

4362  See.     6"|I3-6*!I9  o'.'6  294° 
4378    8M  2"  69°,  binary. 


4363  ft  125- 
4384  W.  H. 


71*2-9"  5 


"  355°- 


CATALOGUE  OF  6l88  STARS  FOR  IQOO 


177 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

I/  and  i  oo  AH 

Prob.  Errors. 
SEp.  IOOH'  Sio 

Remarks. 

4351 

of            ft 

+48  56  30.21 

80.4 

//                          // 

—  5.086+    .227 

// 

+  .02 

n 
—  .082      o 

//         it       n 

.10      .47    .17 

4352 

-17  2835.65 

77.6 

-5.004+    .493 

+  .06 

—  .022       o 

.10      .46    .18 

4353 

-  056  51.38 

79.8 

-4.959+    .439 

+  .05 

-  .030      o 

.11      .46    .18 

4354 

+5436  7.04 

56.2 

-4.831+   .176 

+  .02 

+  .081-  I 

.06      .24    .14 

S  2130.  5*18-5*19  a//j  141°,  s|ow 

4355 

-44  25  42-78 

77.6 

-4.950+   .615 

+  .11 

-  -054      o 

.12         .56      .22 

125  G  Scorpii 

4356 

-10  23  34.14 

91.6 

-4.939+   .472 

+  .06 

—    .112+     I 

.12         .75      .18 

4357 

+  2436  59-79 

78.0 

-4.872+   .353 

+  .03 

—  .058      o 

.11         .36      .l6 

62  Herculis 

4358 

+  36    3  53.46 

67.7 

-4.831+    .303 

+  .02 

-  .023       o 

.08         .45      .21 

Hough.     i2M  20"  142° 

4359 

+  40  38  47.75 

79-4 

-4.834+    .278 

+  .02 

—  .028      o 

.06         .38      .13 

4360 

-  15  36    4.36 

73-2 

-4.709+    .489 

+  .06 

+  .086      o 

.04         .l8      .08 

0  1118.  3*10-3*15  o'.'s  351°,  slow 

436i 

-43    626.35 

72.0 

—  5.060+   .610 

+  -II 

-  .294      o 

.08         .34      .15 

4362 

-3922  53.94 

83.6 

-4.810+   .588 

+  .10 

—  .076      o 

.13         .67      .22 

127  G  Scorpii  * 

4363 

-2655    2.13 

77.2 

-4.768+   .530 

+.07 

-  .085-  I 

.12         .55      .22 

93  G  Ophiuchi  * 

4364 

+  40  54    7.24 

84-5 

-4.656+    .277 

+  .02 

-  .003-  I 

.12         .51      .18 

4365 

+  24  21  34.45 

71.4 

-4.588+   .354 

+  -03 

+  .014       o 

.09         .47      .20 

63  Herculis 

4366 

+  10  42  22.00 

59-5 

-4.567+   .403 

+  .04 

-  .036      o 

.12         .43      .25 

37  Ophiuchi 

4367 

-2651  53.11 

80.5 

-4.583+   .532 

+  .07 

-  .074      o 

.IO         .42      .l6 

99  G  Ophiuchi 

4368 

+  65  50  15.89 

73-o 

-4.447+    .025 

+  .04 

+  .020      o 

.04         .19      .08 

4369 

-33  25  S7-58 

79.8 

-4.441+    .561 

+  .08 

+  .004      o 

.13         .60      .22 

134  G  Scorpii 

4370 

—  26  27  21.71 

72.2 

-5-550+   -521 

+  .07 

-1.142-  5 

.08         .37      .16 

HSh.    4"  192°,  slow  binary 

437i 

—  26  27  16.71 

74.0 

-5-S29+   -521 

+  .07 

-1.  122-    5 

.IO         .44      .19 

4372 

—  26  24    7.12 

74-8 

-5.456+   .521 

+  .07 

-1-123-  5 

.10      .45    .19 

(30  Sc.)  106  G  Oph. 

4373 

+  1430  14.87 

65-2 

-4.304+   .391 

+  -03 

+  .027      o 

.02        .11      .06 

Var.  31!!1!  to  3"9 

4374 

+  14  30  12.60 

72.0 

-4.300+   .391 

+  -03 

+  -031       o 

.08         .49      .20 

JS  2140.    5"  114°,  v.  slow 

4375 

-3232  59-53 

78.8 

-4.347+   .556 

+  .08 

-  -055-  I 

.10      .45    .17 

139  G  Scorpii 

4376 

+  2457  24.95 

74.1 

-4.423+   .352 

+  .O2 

-  -163       o 

.04         .22      .09 

See  Appendix 

4377 

—  70    i    4.11 

79.8 

-4.276+   .950 

+  .30 

—  .017       o 

.11         .50      .19 

4378 

-4631  55-39 

86.4 

-4.007+    .663 

+  .11 

+  .207+14 

.16      1.24      .33 

41  G  Ara  * 

4379 

-   o  19  56.88 

77-3 

-4.272+   .440 

+  .04 

-  .059      o 

-08         .33      .13 

41  Ophiuchi 

438o 

-673957-33 

80.8 

-4.195+    .891 

+  .26 

+  -013-  I 

.13         .67      .24 

438i 

+  36  55  17-93 

76-5 

—  4.207+   .299 

+  .O2 

—  .002      o 

.04         .27      .IO 

4382 

+  62  59  18.21 

66.0 

-4.149+    .075 

+  .03 

+  .046      o 

.09         .38      .19 

4383 

-24  1030.15 

78.0 

-4.185+   .522 

+  .06 

-  .008-  I 

.12        .49      .20 

1  113  G  Ophiuchi 

4384 

—  24  10  41.10 

74-3 

-4.191+    .522 

+  .06 

-  -015-  I 

.10      .39    .17 

J  39  Ophiuchi  (112  G)* 

4385 

-23  5744-87 

78-5 

-4-244+    -525 

+  .06 

-  .077+  I 

.11         .49     .19 

114  G  Ophiuchi 

4386 

-34S239-88 

73-4 

-4-335+   -598 

+  .08 

-  .179+14 

.l6      1.27      .49 

142  G  Scorpii  * 

4387 

-8045  58.37 

78.6 

-4.147  +  1.589 

+  •99 

-  .043       o 

.06        .51      .I? 

59  G  Apodis 

4388 

+  33  12  27.40 

75-o 

-4.041+   .318 

+  .02 

-  -013       o 

.07         .32      .13 

68  Herculis  u  * 

4389 

+  10  58  21.51 

65-4 

—  4.103+   .404 

+  .03 

—  .099      o 

.09        .32      .17 

(66  Here.)  (Oph.  e) 

4390 

-1739    6.67 

77-7 

—  4.012+   .500 

+  .05 

—  .021       o 

.10      .47    .18 

* 

4391 

+  37  23  45-77 

62.3 

-3.925+   .297 

+  .02 

+  -053      o 

.O?        .27      .14 

69  Herculis  e 

4392 

—  62  45  56.18 

86.7 

-3.954+   .806 

+  .18 

—    .Oil         0 

.15        .8l      .24 

46  G  Arae 

4393 

+  28  55  38.21 

66.2 

-3-936+   .338 

+  .02 

—  -015       o 

.I3        .58      .28 

4394 

—  21      O  2O.O2 

66.0 

-4.117+   .518 

+  .05 

—    .207+     2 

.06        .30     .15 

4395 

-12  44  43.94 

64.1 

-3.892+   .484 

+  .04 

+  .002      o 

.08        .29     .15 

W.H.    9"S  47"  3°° 

4396 

+  604635.97 

68.7 

-3.876+   .104 

+  .02 

+   .Oil—     I 

.IO        .41      .20 

4397 

—  24  48  18.12 

78.2 

-3.902+   .527 

+  .06 

-  -039      o 

.10      .49    .19 

4398 

—  47   22   12.29 

79.2 

-3.890+   .645 

+  .10 

—  .044      o 

.14    .65   .24 

_ 

4399 

-2453  59-3° 

72.6 

-3.867+   .528 

+  .06 

-  -031      o 

.04         .22      .09 

• 

4400 

+  18    935.64 

68.2 

-3.884+   -380 

+  .03 

—  .051      o 

.15         .60      .29 

4386  |3  416.    6"Co-8"Co  <  2",  binary,  46  yrs.  ±  ;  h  4935.     IOM  30"  130°,  fixed. 
4388    4«C6-5*I4.     OS  3a8.  10"  4"  60°.  4390/8126.    S»2  a"  262°;  12*"  n"  139°. 


i78 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR   1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

|i  and  100  A  p 

Prob.  Errors. 
a  Ep.      100  [i     aio 

M 

h     m          s 

s               s 

s 

s 

//              //           it 

4401 

Pi  71 

5-6 

i?  16    5-255 

76.7 

+  2.4440+.  0030 

—  .001 

+  .0014      o 

.14          .84       .31 

4402 

Br  2197 

5-5 

1  6  47.049 

62.5 

+  2.4700+.  0029 

—  .001 

—  .0013      o 

.09            .39         .21 

4403 

Br  2199 

5-5 

16  55.050 

77.1 

+  2.  2427  +  .0048 

—  .001 

+  .0099+  9 

.06            .27         .IO 

4404 

L  7247 

5-3 

16  58.090 

87.6 

+  4-34IO+.  0136 

-•033 

—  .0022      o 

.15            .99         .27 

4405 

y  Arae 

3-4 

16  58.550 

71.4 

+  5-°395  +  -0225 

-.065 

-.0003      o 

.IO            .40         .19 

4406 

ft  Arae 

2.7 

16  59-153 

72.0 

+  4-9763  +  .02I7 

—  .062 

-.0018+  I 

.IO            .44         .19 

4407 

Br  2192 

5-5 

17    3.927 

76.6 

+  3-7723  +  -o°83 

—  .016 

+  .0004      o 

.IO            .48         .19 

4408 

Br  2203 

5-8 

1731.617 

70.4 

+  1.6928  +  .  0041 

—  .002 

—  .0031       o 

.08            .38         .I7 

4409 

Groomb  2437 

7-i 

17  46.136 

74-6 

-0.9495  +  .033  1 

+  .009 

—  .0030+   I 

.08            .57          .22 

4410 

K  Arae 

5-3 

18  12.073 

85-2 

+  4.6674+.  0169 

-.047 

—  .0017       o 

.18        .88      .28 

4411 

Groomb  2435 

5-7 

18  26.712 

76-7 

+  1.9670+.  0035 

—  .001 

+  .0005  +   I 

.10         .48       .19 

4412 

Pi  79 

7-8 

18  29.044 

95-5 

+  3.284I  +  .005I 

—  .007 

—  .0027       o 

.13       .63     .16 

4413 

Pi  76 

6.2 

1843.131 

80.0 

+  3.5843  +  .0068 

—  .012 

—  .0019       o 

.09        .45      .16 

4414 

Br  2196 

6.9 

18  59.422 

71.6 

+  3.  6624+.  0072 

-.013 

+  .0003      o 

.11        .40      .19 

4415 

L  7267  m 

5-8 

19  28.963 

78.6 

+  4-42i8  +  .oi38 

-•035 

—  .0012+   I 

.20         1.  10         .39 

4416 

Br  2204 

5-9 

19  55-496 

69.0 

+  2.  5089+.  0030 

—  .001 

-  .0034       o 

.09            .45          .21 

4417 

L  7265 

6.0 

19  59.862 

9°-3 

+  4-7705  +  .OI76 

—  .052 

+  .0009+   I 

.20         I.O4         .28 

4418 

Pi  95 

5-9 

20      2.775 

76.4 

+  2.  6870+.  OO3I 

—  .002 

+  .0019       o 

.15      i.oo      .37 

4419 

p  Herculis 

4.6 

2O  13.961 

69.7 

+  2.  0686  +.003  1 

—  .001 

—  .0032      o 

.05           .26        .12 

4420 

Br  2198 

4.2 

20  15.738 

75-8 

+  3.6603  +  .0073 

-.013 

-.0005+  I 

.05           .26         .IO 

4421 

Br  2200 

4-3 

2O  58.098 

81.5 

+  3.8274+.  0083 

-.017 

+  .0014+  I 

.06           .34         .12 

4422 

Br  2208 

6.7 

20  59.264 

80.3 

+  2.  07  50  +.0030 

—  .001 

-  -0033      o 

.11            .45         .17 

4423 

Pi  99 

4-6 

21   19.489 

83.8 

+  3-  l8l4+.  0045 

-.006 

—  .0062      o 

.07            .51         .15 

4424 

Br  2202 

6-5 

21  25.286 

68.6 

+  3.  3642  +  .0053 

—  .008 

+  .0016       o 

.12           .50        .24 

442S 

<r  Ophiuchi 

4-5 

21  33.158 

74-3 

+  2.975i  +  .oo37 

-.003 

+  .0002      o 

.04           .24        .IO 

4426 

8  Arae 

3-6 

22     4.214 

74-9 

+  5.4042  +  .0254 

—  .091 

—  .0076+    2 

.12            .51          .22 

4427 

Pi  109 

5-6 

22  30.166 

70.8 

+  2.  5888+.  0029 

—  .001 

+  .0007       o 

.IO            .46         .21 

4428 

Pi  112 

5-5 

23  43-568 

72.8 

+  3.0587  +  .0038 

—  .004 

—  .0042       o 

.11             .42          .19 

4429 

t>  Scorpii 

2.7 

23  57-875 

86.1 

+  4.0746  +.0094 

—  .024 

—  .0002      o 

.08            .45          .14 

4430 

Br  2211 

6.0 

24     5.170 

79-6 

+  1.5884  +.0044 

-.003 

.0000      o 

.06            .28         .IO 

4431 

o  Arae 

2.7 

24     6.644 

68.6 

+  4.6309+.  0146 

-•045 

-.0034+  I 

.09            .38          .18 

4432 

Radcl  3714 

5-7 

24  23.761 

78-3 

+  0.7  73  2  +  .0086 

-.005 

.0000—    I 

.09            .50         .l8 

4433 

Dpt  1949  m 

5-4 

25  14.911 

79-8 

+  3.  0866  +.004  1 

—  .004 

—  .0083+  I 

.08            .56         .19 

4434 

Br  2209 

4.9 

25  18.834 

73-7 

+  3-6575  +  -0064 

-.013 

+  .OOOI         O 

.06            .26         .11 

4435 

Pi  117 

6.1 

25  3I-79I 

80.3 

+  3.  7220+.  0067 

-.015 

—  .0003      o 

.11            .52          .19 

4436 

L  732S 

6-3 

26     4.316 

87.1 

+  4.2271  +  .0100 

—  .029 

+  .0017      o 

-15        -88      .25 

4437 

Pi  127 

5-8 

26  2O.4O8 

60.2 

+  3.  0054  +.003  5 

—  .004 

—  .0023      o 

•ii        -57      -31 

4438 

X  Herculis 

4-7 

26  41.800 

67-5 

+  2.  4232  +  .OO28 

—  .001 

+  .OOII         0 

.07        .30      .15 

4439 

X  Scorpii 

i-5 

26  49.072 

80.4 

+  4.0697  +  .0087 

-.023 

-  .0003      o 

.07        .30      .12 

4440 

Pi  M3 

6.0 

27      8.156 

73-° 

+  2.  2708  +  .0028 

—  .001 

+  .0006      o 

.16        .80      .34 

4441 

Br  2214 

5-9 

27  53-914 

62.3 

+  2.355  1  +  .0027 

—  .001 

+  .0007       o 

.12        .46      .25 

4442 

Pulk.,5  2481 

5-8 

28     9.508 

89.9 

+  3.  200Q+.  0042 

—  .006 

—  .0029+   I 

.12        .66      .18 

4443 

ft  Draconis 

2.8 

28  10.381 

67.7 

+  1-3537  +  -0050 

-.003 

—  .0015      o 

.03        .14      .06 

/l/l/l/l 

Brisb  6125 

5-9 

28  10.431 

84.0 

+  3-9I52  +  -oo74 

—  .019 

—  .0008       o 

.11        .81      .24 

4445 

<r  Arae 

4-7 

28  12.785 

80.4 

+  4.4602  +  .0114 

-.038 

-  .0039      o 

.18        .84      .31 

4446 

Pulkjj  2483 

5-8 

29      2.O7I 

92.0 

+  2.6059+.  0030 

—  .001 

—  .0019+   I 

.10        .75      .17 

4447 

PulkB  2484 

5-8 

29  10.951 

88.7 

+  2.  68  1  5  +  .0030 

—  .002 

-.0013      o 

.11        .68      .18 

4448 

Grw.«i  1501 

5-7 

29  12.647 

90.6 

+  3-33I4  +  .oo44 

—  .007 

—  .0026       o 

.13        -63      -18 

4449 

Br  2212 

6.7 

29  I7-49I 

73-8 

+  3.  6062  +  .0056 

—  .012 

—  .0006      o 

.10        .34      .16 

4450 

L  735° 

4-3 

17  29  39.567 

84.8 

+  4.  1  268  +  .0089 

—  .025 

-.0018+     2 

.14            .63         .21 

4413  Hough.     i2M  4"  46°. 


4415  h  4949. 


i'!s 


CATALOGUE  OF  6 1 88  STARS  FOR  1 900 


179 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

H/  and  100  A  |i' 

Prob.  Errors. 
SEp.  icon'  Sio 

Remarks. 

o        /           // 

//  3             ft 

// 

n 

//         //       // 

4401 

+253820.53 

68.2 

-  3-837  +  -35I 

+  .02 

—    .019    o 

.13      .60    .28 

4402 

+2435  55-92 

67.6 

-   3-759+-35S 

+  .02 

—   .001     o 

.08      .35    .17 

70  Herculis 

4403 

+  32  35  46.00 

74.1 

-   4-799  +  -324 

+  .O2 

-1.053+1 

.05      .25    .10 

72  Herculis  w 

4404 

-44    3  59.43 

83.2 

-   3.774+-  623 

+  .09 

-    .032     o 

.11         .69      .22 

146  G  Scorpii 

4405 

-56  17    0.30 

72.6 

-   3-7S4+-724 

+  •'3 

-   .013    o 

.08         .37      .16 

4406 

-55  26    6.94 

75-2 

-   3-773  +  -7I4 

+  .12 

-   -033    o 

.09         .39      .16 

4407 

-28    245.37 

74-o 

-   3-776+-S42 

+  .06 

—    .042     o 

.10      .45    .19 

43  Ophiuchi 

4408 

+  46  20  19.51 

64.0 

-   3.656+.  244 

+  .02 

+   .038    o 

.07         .30      .l6 

74  Herculis 

4409 

+  71  5346.85 

71.4 

-  3.684-.  135 

+  .08 

—   .on     o 

.06         .38      .16 

4410 

-503231-3° 

78.2 

-   3.639+.67i 

+  .10 

-   .003    o 

-13         -58      -23 

4411 

+  40    4  21.39 

75-5 

-   3.692  +  .284 

+  .O2 

-   .077    o 

.09         .38      .l6 

4412 

-   9  J5  51-21 

87-5 

-   3.62S  +  .472 

+  .04 

-   -013    o 

.11         .41      .14 

4413 

-21  2053.71 

80.8 

-   3.627  +  .5I5 

+  -05 

-   .036    o 

.IO         .48      .17 

132  G  Ophiuchi  * 

4414 

-  24    9    8.49 

75-° 

-   3-569+-S27 

+  .0S 

—   .001     o 

.11         .40      .l8 

4415 

-45  45  12.27 

74-3 

-  3-577  +  -636 

+  .08 

—   .051     o 

.16         .85      .34 

56  G  Arae  * 

4416 

+  23    3  11.30 

60.8 

-  3-53°+  .361 

+  .O2 

—   .042    o 

.10      .43    .23 

73  Herculis 

4417 

-52  12  30.12 

87.0 

-   3-53S  +  -686 

+  .10 

-   -054    o 

.16        .80     .24 

58  G  Arae 

4418 

+  16  23  34.46 

70.2 

-   3.5ii  +  .388 

+.03 

-    -034    o 

•13      -73    -32 

4419 

+37  U  15-65 

70.0 

-   3.465  +  .298 

+  .02 

—   .004    o 

.05      .23    .10 

See  Appendix 

4420 

-24    5    o-39 

77-2 

-  3-59°+-527 

+  .05 

-    .132     o 

.05      .26    .10 

44  Ophiuchi  b 

4421 

-29  46  35.84 

76.6 

-   3-554+-5S2 

+  .06 

-   -156    o 

•07      -33    -i3 

45  Ophiuchi  d 

4422 

+  37    2  26.55 

77-8 

-   3.361  +  .299 

+  .O2 

+   -035    o 

.10      .44    .17 

02  329.    Si's  33"  13° 

4423 

-   4  59  53-95 

78.7 

-   3.4I6+.458 

+  .04 

-  .049-1 

.07      .38    .14 

141  G  Ophiuchi 

4424 

-12  25  27.43 

69.1 

-   3.430+.  485 

+  .04 

—   .071    o 

.09      .37    .18 

4425 

+  4  13  37-55 

74-2 

-   3-344+  -429 

+  .03 

+   .003    o 

.05      .24    .10 

4426 

-6036    0.53 

77-5 

-   3-388+.77S 

+  •13 

-  .085-1 

.11      .47    .19 

4427 

+  20    957.52 

70.4 

-   3-2S3  +  -374 

+  .O2 

+   .012     o 

.09        .47      .21 

4428 

+  o  24  41.96 

75-2 

—   3-I39+.44I 

+  -03 

+     .021—1 

.IO        .41      .17 

4429 

-37  I2  57-69 

80.7 

-   3.i8i  +  .s88 

+  .06 

—   .042    o 

.09        .39      .14 

4430 

+  48  20  37.65 

70.8 

-   3.I43  +  .230 

+  .O2 

—   .015    o 

.06         .26      .12 

77  Herculis  * 

4431 

-  49  47  48.48 

71.4 

-   3.210+.  668 

+  .09 

—   .084    o 

.08         .34      .15 

4432 

+  60    7  56.30 

78.4 

-   3-067  +  -JI3 

+  .02 

+   -035     o 

.07         .49      .17 

4433 

—  o  58  48.17 

77-o 

-   3.203  +  .445 

+  -03 

-  -175-1 

.07         .37      .14 

* 

4434 

-2353    7-55 

75-8 

-   3.060+.  528 

+  .04 

-   .038    o 

.07         .29      .12 

51  Ophiuchi  c2 

4435 

-26  ii  35.05 

78-3 

-   3-°35  +  -538 

+  .04 

-   -031    o 

.12         .52      .20 

1516  Ophiuchi 

4436 

-4i    557-54 

87.4 

—   2.98s  +  .6ii 

+  .07 

—   .028    o 

.14         -77      .22 

155  G  Scorpii 

4437 

+  2  47  57-75 

59-o 

-    2-9I5  +  .434 

+  .02 

+   .019    o 

.11         .54      .30 

4438 

+  26  ii    9.06 

70.2 

-   2.889+.35i 

+  .02 

+   .014    o 

.07         .28      .13 

4439 

-37    151-25 

76.2 

-   2.928  +  .58S 

+  .06 

-   .036    o 

.07         .30      .13 

4440 

+  31  13  57.16 

65-5 

—   2.86i  +  -329 

+  .O2 

+   .004    o 

.14         .64      .32 

4441 

+  28  28  47.02 

63-7 

-   2.775  +  -34I 

+  .O2 

+   .024    o 

.11         .55      .28 

78  Herculis 

4442 

-  5  4°  17-79 

84.9 

-   2.875  +  .463 

+  -03 

—   .099    o 

.11         .52      .17 

4443 

+  52   22  3I.OO 

67-7 

—     2.  768  +  .  196 

+  .02 

+   .007     o 

.03        .12      .06 

ft  logo.    14"  4"  13° 

4^44 

-32  3°  44-95 

78.6 

-     2.789+.  566 

+  .0S 

—    .014    o 

.12        .75      .26 

L(7345)  157  G  Scorpii* 

4445 

—  46  26  12.05 

78.8 

—   2.8n  +  .645 

+  -07 

-  .039-1 

.14        .71      .26 

4446 

+  19  19  44.11 

90-3 

-   2.79I  +  .377 

+  .O2 

—   .091     o 

.08        .64     .15 

4447 

+  16  23  17.89 

85.8 

-   2.743  +  .388 

+  .02 

-    -055     o 

.12         .56      .18 

4448 

—  ii  10  27.61 

80.3 

-   2.685  +  .482 

+  -03 

.000    o 

.IO         .41      .l6 

h  4964.   8M  54"  226° 

4449 

-21   58  34.91 

80.0 

—     2.  691  +  .  522 

+  .04 

-    -013     o 

.10      .37    .15 

52  Ophiuchi 

4450 

-3833  53-0° 

80.  i 

-   2.86i  +  .597 

+  .05 

—    -215     o 

.12         .53      .20 

159  G  Ophiuchi  Q 

4433  2  2173.     6*Ji-6'*4     i"  ±,  binary,  46  yrs.  ±. 


4444  h  4962.     IOM  6"  102° 


i8o 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    1 900 


No. 

Designation. 

Mag. 

R.  A.  IQOO 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i  and  100  A  p 

Prob.  Errors. 
oEp.      loop     aio 

M 

h    m         s 

S                      3 

s 

s 

//              /'           H 

4451 

Br  2216 

6.9 

17  29  4S-726 

69.0 

+  2.  7612  +  .OO3O 

—  .002 

+  .0003      o 

.09          .38        .18 

4452 

Pi  149 

8.2 

295i-273 

97-9 

+  2.8476+.  0031 

-.003 

+  .0004       o 

.14          .75        .17 

4453 

Br  2215 

6.0 

295I-777 

70.2 

+  2.  8464  +.003  1 

-.003 

—  .0006      o 

.12            .56         .25 

4454 

IT  Arae 

5-4 

29  52.827 

91.2 

+  4.9225  +  .OI54 

—  .061 

-.0027+  3 

.16      1.06      .26 

4455 

Groomb  2444 

6.0 

29  56.891 

76.5 

+  1.9007  +.0034 

—  .001 

—  .0070+   i 

.10        .42      .17 

4456 

L  7078 

6.6 

29  59-64- 

83.6 

+  I8-747-+-538- 

—  .O26-+III 

.08      1.04      .28 

4457 

6  Scorpii 

1.8 

30    7-955 

74-4 

+  4.3056+.  0096 

-.032 

+  .0004      o 

.10        .40      .18 

4458 

v1  Draconis 

S-o 

30  12.387 

75-o 

+  1.1795  +  .0054 

—  .004 

+  .0176—    I 

.04        .24      .10 

4459 

a  Ophiuchi 

2.O 

30  17-545 

68.3 

+  2.  7833  +  .0033 

—  .002 

+  .0080  +    2 

.03      .11     .05 

4460 

v2  Draconis 

5-o 

30  17.791 

'  74-5 

+  i.i8io+.oo54 

—  .004 

+  .0184—     I 

.04        .24      .10 

4461 

Pi  163 

6.1 

31  43.218 

72.2 

+  2.5625  +  .  0028 

—  .002 

+  .0009       o 

.14        .62      .27 

4462 

£  Serpentis 

3-4 

31  51.610 

79-2 

+  3.433  1  +  .0046 

—  .009 

—  .0030      o 

.04        .27      .09 

4463 

Pi  156 

6.1 

31  51.890 

68.8 

+  3.  4392  +  .0046 

—  .009 

—  .0012      o 

.15        .60      .29 

4464 

Br  2234 

5-3 

32  21.798 

79-2 

—  0.2470+.  0140 

.000 

—  .0024—   6 

.05         .28       .10 

4465 

/A  Ophiuchi 

4.6 

32  24.549 

79-7 

+  3.2599+.  0039 

—  .007 

—  .0003      o 

.08       .39     .14 

4466 

A.  Arae 

S-o 

32  40.416 

83-5 

+  4.6291  +  .0116 

-•045 

+  .0111+  3 

.18      i.io      .34 

4467 

Br  2219 

7-i 

32  44-302 

80.0 

+  3.  6026  +  .005  1 

-.013 

—  .0019       o 

.10        .48      .18 

4468 

Br  2223 

6.0 

33  23.888 

65.2 

+  2.  4693  +.002  7 

—  .001 

—  .0017       o 

.10        .39      .20 

4469 

L7382 

7-4 

33  30.018 

79-9 

+  3.9065  +  .0064 

—  .020 

.0000      o 

.12            .70        .25 

4470 

Pi  201 

5-4 

33  57-383 

75-i 

+  o.6i46+.oni 

—  .004 

+  .0344+14 

.08      .45     .18 

4471 

Br  2227 

5-7 

34    0.698 

54-8 

+  1.5661  +  .0037 

—  .003 

+  .0023—    I 

.12            .40        .25 

4472 

Pi  177 

6.4 

34    5-624 

67.8 

+  3.  0269+.  0032 

-.005 

+  .0029       o 

.15           .62         .30 

4473 

Br  2240 

7.2 

35  26.485 

74.8 

—  i.  6696+.  0283 

+  .042 

—  .Ol8o—     2 

.IO           .44         .18 

4474 

K  Scorpii 

2.4 

35  34.178 

80.6 

+4.  1467  +  .007  2 

—  .027 

—  .0009       o 

.08           .33         .12 

4475 

o  Serpentis 

4-4 

35  47-648 

71.8 

+  3.3700+.0040 

-.008 

—  .0048       o 

.06           .24        .11 

4476 

1)  Pavonis 

3-5 

35  55-026 

79.1 

+  5-8797  +  -02ii 

-•134 

—  .OOI3+     2 

.10           .54         .20 

4477 

L  7397 

5-8 

36    3.646 

87.2 

+  4.0704+.  0067 

—  .024 

+  .0003       o 

.12            .69         .20 

4478 

/A  Arae 

5-3 

36  12.259 

90.4 

+  4-7589+.OII4 

-•053 

—  .0015+  3 

.15            .98         .24 

4479 

i  Herculis 

3-8 

36  38.488 

78.9 

+  I.69I9+.0034 

—  .002 

—  .0008       o 

.03            .20         .07 

4480 

Br  2228 

6.6 

36  59-023 

60.4 

+  2.4633  +  .0025 

—  .001 

—  .0013      o 

.12            .48         .27 

4481 

Br  2226 

S-o 

37  26.254 

66.0 

+  3-5935  +  -OQ46 

-.013 

—  .0064      o 

.06           .33         .16 

4482 

Pi  203 

5-7 

37  29-333 

81.0 

+  2.  6908  +.OO  2  5 

—  .002 

—  .0002—    I 

.09           .44         .15 

4483 

o>  Draconis 

S-o 

37  32.126 

73-4 

-  0-3557  +  -0106 

+  .003 

+  .0018—  16 

.05            .27         .11 

4484 

Groomb  2458  m 

7.2 

38    5.004 

86.2 

+  1.8858  +  .0030 

—  .001 

—  .001  1       o 

.13            .46         .17 

4485 

Pi  195 

7-o 

38  22.130 

73-4 

+  3.6152  +  .  0044 

-.013 

+  .OOI2          0 

.12           .45         .20 

4486 

Br  2232 

5-9 

38  22.313 

68.8 

+  2.  4582+.  OO27 

—  .001 

—  .0046+    I 

.09           .38         .18 

4487 

j8  Ophiuchi 

2.9 

38  3!-943 

73-2 

+  2.  9623  +  .OO27 

—  .004 

—  .0028—    I 

.03           .16        .07 

4488 

Br  2235 

6.1 

39  iS-SH 

68.0 

+  2.  4610+.  OO24 

—  .001 

—  .0084       o 

.09           .33         .16 

4489 

Br  2231 

6-S 

39  32.708 

80.4 

+  3.OII2+.002Q 

—  .004 

—  .0002       o 

.12            .39         .16 

4490 

Pi  216 

6.9 

39  34-ii3 

92.6 

+  3.0II8+.  OO29 

—  .004 

+  .0004       o 

.13            .63         .17 

4491 

L  7413 

6.4 

40  17.808 

86.8 

+  4-9957  +  .OI04 

-.066 

-  .0043       o 

.20           .87         .28 

4492 

i  Scorpii 

3-o 

4035-431 

76.1 

+4.1935  +.0062 

-.028 

+  .0003       o 

.08           .34        .14 

4493 

X  Sagijarii 

Var. 

4i  I5-938 

72.8 

+3.7740+.  0045 

—  .016 

—  .0004       o 

.06           .30        .13 

4494 

PulkM  2510 

S-8 

4i  53-909 

83-9 

+  1.2519+.  0044 

—  .004 

+  .0028+  I 

.09           .63         .19 

4495 

Pi  223 

6-5 

42  12.582 

78-9 

+3.  7484+.  0043 

—  .016 

—  .OOI  I          0 

.13            .57          .22 

4496 

L  7426 

6.0 

42  2O.III 

89-3 

+4.8780+.  0088 

—  .060 

—  .0003       o 

.20            .98         .28 

4497 

fi  Herculis 

3-4 

42  32.657 

75-5 

+  2.3460+.  0038 

—  .001 

—  .0244+  6 

.03            .15         .06 

4498 

L  74Si 

S-o 

42  40.697 

82.1 

+  3.8946+.  0047 

—  .019 

+  .0002       o 

.11            .57         .19 

4499 

Pulkjs  2509 

5-8 

42  43-!59 

79-4 

+  2.6454+.  0025 

—  .002 

—  .0008      o 

.13            .80         .27 

4500 

y  Ophiuchi 

3-8 

17  42  52-693 

71.0 

+  3.0067  +  .0029 

—  .004 

—  .0018       o 

.04            .21         .09 

4451  S  2184.     IIM  22"  74°.                                                                   447°  ft  962.     i°M  i".  binary. 

4484  S  2203.     7«8-8^i  o'.'7  322°,  very  slow.                                    449*  •>  4975-     i°M  '"  9°°  ? 

CATALOGUE  OF  6188  STARS  FOR  IQOO 


181 


No. 

Decl.  1000 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3. 

0 
H-'andiooAp.' 

Prob.  Errors. 
SEp.  100  |i'  Sio 

Remarks. 

4451 

o        /           // 

+  13  13  45-72 

64.2 

-2.673+   .400 

19 

+  .02 

-  .036      o 

.08      .33    .17 

54  Ophiuchi  * 

4452 

+  93834.28 

89.0 

-2.633+   .413 

+  .02 

—  .004      o 

.12         .49      .l6 

ISApp.  41"  191° 

4453 

+  9  39  J4-62 

58.6 

—  2.643+    -412 

+  .02 

-.015      o 

.09         .33      .19 

J53  Ophiuchi/ 

4454 

-5425  59.50 

83.8 

-2.778+   .712 

+  .08 

—  .151       o 

.12         .60      .20 

4455 

+  41  18  50.14 

71.6 

-2.694+   .275 

+  .O2 

—  .072—    I 

.10      .36    .17 

4456 

-&5  1034.13 

82.8 

-2.748  +  2.707 

-.131-   4 

.08      I.O4      .29 

29  G  Octantis 

^45T 

-42  56    2.92 

73-6 

—  2.616+   .624 

+  .06 

—  .on      o 

.09         .37      .16 

4458 

+  55  i5    8.90 

69.2 

-2.550+    .174 

+  .01 

+  .049+    2 

.05         .21      .IO 

Seec'SApp.    62"  31  2° 

4459 

+  1237  57.46 

67.1 

-2.826+    .405 

+  .02 

-•235+     I 

.02         .11      .05 

4460 

+  55  1427.47 

69.0 

-2.541+    .175 

+  .01 

+  -051+  3 

.06        .22      .IO 

See  vl  5  App. 

4461 

+  21    335.50 

61.7 

-2.492+    .372 

+  .01 

-  .025      o 

.11         .44     .24 

S  2190.    IOM  io"24° 

4462 

—  15  20     8.65 

77-o 

-2.526+    .497 

+-03 

—  .071      o 

.06        .28      .11 

4463 

-15  3036.I5 

64.7 

—  2.470+    .498 

+.03 

-.015      o 

.12         .44      .23 

4464 

+  68  ii  55.60 

73-6 

-2.275-    -035 

+  .04 

+  .137      o 

.04        .22      .09 

27  Draconis/ 

4465 

-   8    3  28.54 

67-3 

-2-433+   -473 

+.03 

-  .025      o 

.08        .26     .13 

4466 

-49  21  13.53 

77-6 

-2.564+   .673 

+.07 

-.179+     2 

.13        .67      .25 

4467 

—  21   51    12.91 

81.0 

-2.399+   -522 

+.03 

—  .020      o 

.11         .51      .l8 

158  G  Ophiuchi 

4468 

+  24  22      9-II 

57-5 

-2.325+   .358 

+  .01 

-.003       o 

.12         .39      .24 

79  Herculis 

4469 

-  32    8  40.48 

75-o 

-2.321+   .567 

+  .04 

-.008       o 

.12         .63      .25 

Cluster 

4470 

+  61  57    3.89 

71.7 

-2.781+   .095 

+  .02 

-.508+  5 

-07      -34    -15 

26  Draconis  * 

447i 

+48  38  36.78 

50.6 

—  2.215+   -228 

+  .01 

+  .053      o 

.11    .34  .23 

82  Herculis  y 

4472 

+  2    5    7.76 

58.6 

-2.279+   -440 

+  .02 

—  .018       o 

.11    .43  .25 

4473 

+  74  17  21.07 

62.8 

—  2.109—    -244 

+  .07 

+  •035-   3 

.11      .30    .18 

29  Draconis 

4474 

-38  5842.20 

75-9 

—  2.159+   -602 

+  .04 

—  .026       o 

.08     .31   .13 

4475 

—  12  49  19.00 

73-4 

—  2.170+   .489 

+  .O2 

—  .056—    I 

.06         .28      .12 

4476 

-644032.84 

78.0 

-2.158+   .853 

+  .10 

-  -055       o 

.09         .42      .l6 

4477 

-365342.53 

82.2 

-2.131+   .591 

+  .04 

—  .041       o 

.11         .51      .l8 

1  66  G  Scorpii 

4478 

-51  4650-42 

87.4 

—  2.279+   -69! 

+  -05 

—  .201       o 

.12        .67      .19 

4479 

+  46    3  33-66 

75-3 

—  2.042+   .246 

+  .01 

—  .002       o 

.03        .15      .06 

4480 

+  2433  44.98 

55-5 

-1.961+   .358 

+  .01 

+  .049      o 

.11        .40     .24 

S  2194.  8"?s  16"  8° 

448i 

-2138    4-78 

61.9 

—  2.025+  -521 

+  .02 

-.054-  I 

.07        .32      .17 

58  Ophiuchi 

4482 

+  15  5954-05 

77-3 

-1.870+  .391 

+  .01 

+  .096      o 

.08        .36     .14 

181251.  iiMi'/3670 

4483 

+  68  48  15.17 

70.7 

-1.635-  .050 

+.03 

+  .327      o 

.04        .21      .09 

4484 

+  41  42  13.92 

75-3 

—  1.902+  .274 

+  .01 

+  .OI2         O 

.10      .34    .16 

* 

4485 

-22    858.99 

75-2 

-1.905+  .526 

+  .02 

—  .016      o 

.12         .47      .20 

i  G  Sagittarii 

4486 

+  243651.40 

64.0 

-2.004+   -357 

+  .01 

-.115-  I 

.08         .34      .18 

83  Herculis 

4487 

+  43631-88 

75-8 

-1.724+  .430 

+  .01 

+  .152      o 

.03         .I?      .07 

4488 

+  24  22   15.82 

65.8 

-1.748+  .357 

+  .01 

+  .064—    I 

.08         .31      .16 

84  Herculis 

4489 

+   2  37  20.97 

67-4 

-I-773+  -438 

+  .01 

+  .014      o 

.IO         .29      .16 

|6i  Ophiuchi 

4490 

+  2  37  19.77 

87.8 

-1.771+   .438 

+  .01 

+  .014      o 

.13         .50      .I? 

JS  2202.       2l"94° 

4491 

-55  21  54.13 

80.0 

—  1.699+   .726 

+.05 

+  .O22—     I 

.14         .60      .23 

76  G  Are  * 

4492 

-40    5  17.48 

76.2 

—  1.694+   .610 

+  •03 

+  .OO2         O 

.08         .36      .14 

169  G  Scorpii  t1 

4493 

-27  47  34.18 

74-6 

-1.659+   -549 

+.03 

—  .022       o 

.06         .30      .12 

L  7440.    4    to  6" 

4494 

+  53  5°  36-42 

84.1 

-1.617+   .183 

+  .01 

-  -035       o 

.09         .6l      .l8 

4495 

—  26  56  21.27 

79-3 

-1-575+  -545 

+  .02 

—  .020      o 

•13      -53    -2i 

4  G  Sagittarii 

4496 

-53  3444-27 

86.4 

-1.531+  .710 

+  .04 

+  .013       o 

.15    .77  .24 

77  G  Arae  * 

4497 

+  27  4644.36 

72-4 

-2.276+  .338 

+  .01 

--750-    4 

.03     .18  .07 

S  2220.     9"5  32"  244°* 

4498 

-3140    7.88 

78.1 

-1.538+  .567 

+.03 

—  .024      o 

.10      .43    .17 

170  G  Scorpii 

4499 

+  17  44    i.  21 

75-3 

-1-537+  -385 

+  .01 

—  .027       o 

.11     .64   .25 

52215.  5*?9-7*ll9o'.'7296c' 

4500 

+   2  44  40.99 

73-i 

-1-575+  -437 

+  .01 

-.079      o 

.04         .22      .09 

4496  h  4978.     IOM  12"  276°. 


4497  Comp.  is  Clark  7 ,  binary,  <  2"  44  yrs.  ± . 


182 


PRELIMINARY  GENERAL   CATALOGUE   OF   STARS   FOR    IQOO 


Ho. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  100  A  p 

Prob.  Errors. 
aEp.     100  (i     aio 

M 

b    m         s 

s               s 

s 

s 

if                 it             n 

4501 

L  7449 

3-i 

I?  43    3-076 

84.1 

+  4.0825  +  .005  1 

—  .024 

+  .0054       o 

.10        .48      .16 

4502 

L  7428 

6.7 

43    5-677 

88.7 

+4.8463  +.0084 

-.059 

—  .001  1       o 

.20            .92         .28 

4503 

L  7447 

5-o 

43  11.480 

91.7 

+4.1934+.  0056 

-.028 

+  .0004       o 

.12            .75         .18 

4504 

\l>  Draconis 

5-o 

43  42.952 

73-2 

—  1.  0761  +  .0194 

+  .02  1 

+  .0032  +  18 

.03            .20         .08 

4505 

Br  2252 

6.1 

43  44-672 

74-7 

—  1.0768  +  .  0196 

+  .02  1 

+  .0045  +  19 

.06           .28         .12 

4506 

Riimker  6035 

6.0 

44    7-323 

87.2 

+  2.  5726+.  0025 

—  .002 

+  .0014       o 

.10        .66      .18 

4507 

Groomb  2467 

6-5 

44  27.000 

79-3 

+  1.6084  +.003  2 

-.003 

-  .0013       o 

.12            .51          .20 

4508 

Br  2239 

5-3 

44  45-833 

67.0 

+  2.  4310+.  OO25 

—  .001 

—  .0008       o 

.10        .36      .18 

4509 

Pi  245 

6.1 

45  33-492 

82.2 

+  3-9974+.  0044 

—  .022 

—  .0010      o 

.14            .72          .24 

45io 

Pulka  2519 

5-8 

46  30.286 

88.5 

+  2.3243  +  .0024 

—  .001 

+  .OO2I         O 

.12            .62         .18 

45" 

Br  2243 

5-2 

46  40.999 

69-5 

+  1.4308  +  .  0028 

-.003 

-.0054-   3 

.07             .24         .12 

4512 

Pi  254  m 

5-8 

46  42.964 

85-6 

+  4.001  1  +  .0042 

—  .022 

—  .0010       o 

.14            .82          .25 

4513 

L7478 

6.2 

47  I4-736 

89.4 

+  3.  9980+.  0040 

—  .022 

+  .0007       o 

.12             .86         .21 

45H 

Br  2244 

6.9 

47  26.329 

64.2 

+  1.5679+.  0032 

-.003 

—  .0003       o 

.IO            .38         .20 

4515 

Pi  265 

6.5 

47  30.191 

73-3 

+  3-3326+.  0029 

-.007 

+  .0039       o 

.11             .56         .23 

45i6 

Pi  271 

6.0 

48  21.978 

70-7 

+  2.92I7  +  .OO22 

—  .004 

-.0075       o 

.14        .68      .30 

4SI7 

Br  2241 

6.4 

48  44.702 

72.5 

+  3.6899+.  0032 

—  .014 

—  .001  1       o 

.09        .34      .16 

45i8 

Br  2245 

6.2 

48  49.480 

73-i 

+  I.95IO+.  0025 

—  .001 

—  .OOI  I          0 

.08        .45      .18 

4519 

L74»S 

5-° 

49  29-573 

85-9 

+  4.3742  +.0044 

-•035 

—  .0021       o 

.18      1.17      .33 

4520 

L  7494 

6.9 

49  43-664 

82.3 

+  3.92i6+.oo34 

—  .020 

+  .OOOI          O 

.15        .98      .31 

4521 

Pi  277 

6.6 

50    2.043 

84.8 

+3-5276  +  .0028 

—  .on 

+  .OOII         O 

.07        .63      .17 

4522 

Br  2248 

5-2 

50    2.737 

65.2 

+  1.95  20  +.002  5 

—  .001 

+  .OOII         O 

-II         -45      -23 

4523 

L  7508 

5-9 

50  23.004 

80.6 

+  3.  7866+.  0031 

-.017 

+  .0028       o 

.12            .8l         .27 

4524 

Pi  281 

6.0 

50  33.864 

64.2 

+  3.4484+.  0028 

—  .009 

—  .0017       o 

•12             -54         -27 

4525 

L  7497 

S-o 

5041-413 

85.6 

+  4.2607  +  .0039 

-.032 

—  .0015       o 

.15            .8l          .25 

4526 

Br  2242 

7-2 

51    0.777 

77-7 

+  3.  6650+.  0028 

—  .014 

+  .0002       o 

.12            .52         .21 

4527 

Pi  291 

5-8 

51  12.652 

81.1 

+  3.0567  +  .0024 

-.005 

+  .0003       o 

.11            .56         .19 

4528 

Br  2249 

S-8 

5i  23-"5 

72-5 

+  2.4192  +  .0023 

—  .001 

+  .OOOI         O 

•05         -34      -14 

4529 

Pi  293 

5-6 

51  30.889 

70.6 

+  3.1661  +  .0024 

—  .006 

—  .0012       o 

-13         -56      -25 

4530 

PulkH  2527 

6.0 

51  38.722 

88.5 

+  2.5197  +  .0023 

—  .002 

.0000      o 

.12             .62          .l8 

4531 

£  Draconis 

3-8 

51  47-966 

74-9 

+  1.0364  +.0033 

—  .004 

+  .0119—     2 

.04            .l8         .07 

4532 

L  7SI3 

6.0 

52    8.066 

88.1 

+  4.0743  +  .003  1 

-.025 

+  .OOIO         0 

.15             .84         .24 

4533 

L  7519 

6.1 

52  iS-373 

82.6 

+  3  -8053  +  .0028 

-.017 

+  .0002       o 

.13             .92          .28 

4534 

L  7521 

5-4 

52  39-922 

79-2 

+  3.  8506  +.0028 

-.018 

-  .0005      o 

.09            .40         .l6 

4535 

6  Herculis 

3-8 

52  49-404 

78.8 

+  2.  0564  +.OO25 

—  .001 

+  .0003       o 

.04            .24         .09 

4536 

v  Ophiuchi 

3-4 

53  31-271 

74-o 

+  3.  301  4  +.002  5 

-.008 

-.0008+  I 

.04        .24      .10 

4537 

Br  2246 

4-9 

53  41.220 

66.2 

+  3.  6619+.  0026 

—  .014 

+  .OOOI         0 

.07             .28         .14 

4538 

(  Herculis 

4.0 

53  52-722 

73-2 

+  2.3305  +  .0023 

—  .001 

+  .0066       o 

.06            .38         .15 

4539 

Br  2287 

5-2 

53  55-536 

73-4 

—  2.  6894  +.0080 

+  .I2O 

+  .0141-31 

.05            .27          .11 

4540 

Br  2247 

7-i 

54    3.680 

72.0 

+  3.6769+.  0025 

-.015 

+  .0020      o 

.11             .44         .20 

4541 

•y  Draconis 

2.2 

54  17.043 

66.3 

+  i.39i8+.oo3i 

—  .002 

—  .0009       o 

.03            .11          .05 

4542 

v  Herculis 

4.6 

54  40.572 

80.0 

+  2.  2949+.  0023 

—  .001 

+  .OOOI          O 

.11             .39         .16 

4543 

Groomb  2493 

7-i 

54  55-759 

79-8 

+  1.8065  +  .0026 

—  .002 

—  .0012       o 

.11             .51          .19 

4544 

£  Serpentis 

4.6 

55  ".980 

70.8 

+  3.i68o+.oo22 

—  .006 

+  .0096       o 

.11             .38         .18 

4545 

Br  2257 

S-o 

55  18.622 

81.7 

+  2.  9696  +.OO2  2 

—  .004 

—  .0005      o 

•H             -38         -IS 

4546 

Br  2253 

6.8 

55  34.480 

76.2 

+  3.4848+.OO22 

—  .010 

.0000       o 

.12            .42         .18 

4547 

Br  2262 

4.8 

55  36-308 

61.7 

+  2.  6695  +  .O02  2 

—  .002 

—  .0005       o 

•IS        -57      -32 

4548 

Br  2259 

4.0 

55  38-193 

80.3 

+  3.  003  9  +  .002  1 

—  .004 

+  .OOOI         O 

.04        .27      .09 

4549 

Pi  312 

6.0 

55  50-865 

79-9 

+  3-6329+.0022 

—  .OI4 

—  .0005       o 

.11        .50      .19 

4550 

\  Octantis 

5-4 

17  56    4.68- 

78.0 

+35-738-+  -369- 

-.096  -+504 

.05        .40      .14 

4512  See. 


4522  ft  130. 


CATALOGUE  OF  6188  STARS  FOR  1 900 


183 


No. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3dt 

(i/  and  100  AH 

Prob.  Errors. 
SEp.  loo  n'  8  10 

Remarks. 

4501 

o        /           // 

-37   041.04 

79-8 

//                        tt 

-1.461+   .595 

tt 

+  .03 

// 

+  .O2O+     I 

//             "                it 

.10      .40    .15 

172  G  Scorpii  G 

4502 

-53    SS6-3S 

81.9 

-1.493+   -70S 

+  .04 

—  .016  "   o 

.15     .61    .23 

78  G  Arae  v2 

4503 

-40    3  29.07 

88.0 

—  1.483+   .610 

+  .03 

—  .014       o 

.10      .51    .15 

173  G  Scorpii  i2 

4504 

+  72  ii  52.61 

74-i 

—  1.691—    .156 

+  .04 

—  .267       o 

.04      .19    .08 

|3i  Draconis  ^' 

4505 

+  72   12   22.22 

69.9 

-1.699-    -155 

+  .04 

-.278+  I 

.06      .23    .11 

JS  2241.  31"  15° 

4506 

+  203554.87 

87.9 

-1.396+    .375 

+  .01 

—  .008       o 

.11     .65   .18 

4507 

+  47  3847.36 

75-6 

-1.362+   .234 

+  .01 

-  .003       o 

.10      .41    .17 

4508 

+  253921.31 

64.4 

-I-377+   -354 

+  .01 

-  .045       o 

.08    .35  .18 

87  Herculis 

45°9 

-34  46  19.50 

73-2 

-1.274+   .582 

+  .02 

—  .012       o 

.16    .71  .31 

L  (7464)  Cluster 

45io 

+  29  2O  55-68 

83-4 

-1.140+   .339 

+  .01 

+  .040      o 

.12         .48      .18 

45" 

+  5O  48   16.32 

65.6 

—  0.962+   .208 

+  .01 

+  .2O2—     I 

.06         .20      .11 

30  Draconis 

4512 

-3452   15.15 

75-9 

-1.179+   -583 

+  .O2 

—  .oi8_      o 

.14         .69      .27 

179  G  Scorpii  Cluster* 

4513 

-3443  46.76 

77-8 

-1.116+   .582 

+  .02 

—  .001'      o 

-13         -58      -23 

Cluster 

4514 

+  48  25  15.63 

60.6 

—  1.090+   .229 

+  .01 

+  .008      o 

.09         .33      .19 

88  Herculis  z 

4515 

-  10  52  30.50 

76.8 

-1.135+   -486 

+  .01 

-.042+  I 

.11         .51      .20 

4Si6 

+   67  18.16 

66.4 

-0.944+  .425 

+  .01 

+.073-  I 

.14         .63      .31 

4517 

-2452    2.05 

82.9 

-0.992+   .537 

+  .01 

—  .008       o 

.10      .45    .16 

63  Oph  8  G  Sagittarii 

45i8 

+  40    o  13.67 

65-7 

—  0.928+   .284 

+  .01 

+  .049       o 

.09      .35    .!8 

4519 

-44  19  30.78 

83.8 

-0.936+   .637 

+  .02 

—  .017       o 

.13      .86    .26 

181  G  Scorpii 

4520 

-32  27  28.64 

80.3 

-0.898+  .572 

+  .O2 

.000      o 

.14      .97    .32 

182  G  Scorpii 

4521 

-  18  47    4.49 

83-7 

-0.892+   .514 

+  .01 

—  .02  1       o 

.07      .55    .16 

9  G  Sagittarii 

4522 

+  40    i  36.15 

62.5 

-0.823+   .285 

+  .01 

+  .047       o 

.10        .37      .20 

90  Herculis/* 

4523 

—  28    257.67 

75-7 

-0.875+   .552 

+  .01 

-  -034       o 

•14    .92  .35 

10  G  Sagittarii 

4524 

—  15  47  40.80 

68.5 

-0.881+   .502 

+  .01 

—  .056       o 

.11     .51   .24 

h  2814.  gl's  21"  157° 

4525 

-41  42    7.42 

78.8 

—  0.842+  .621 

+  .01 

—  .028       o 

.12         .56      .21 

183  G  Scorpii 

4526 

-2355  29.71 

78-5 

-0.787+   .534 

+  .01 

—  .001      o 

-13      -55    -22 

4527 

+  041    7.52 

82.6 

—  0.765+   .446 

.00 

+  .004      o 

.10      .48    .17 

4528 

+  26    3  56.73 

7°-5 

-0.751+   .353 

.00 

+  .OO2         O 

.06     .32    .14 

89  Herculis 

4529 

-   4    4    3-58 

74-2 

—  0.767+  .461 

+  .01 

—  .025       o 

.11         .51      .21 

4530 

+  22  28  45.64 

83-4 

-0-733+   -367 

.00 

—  .002      o 

.IO        .49     .16 

4531 

+  56  53  17.69 

68.3 

-0.642+   .153 

+  .01 

+  .075+     2 

.04        .16     .08 

4532 

-365052.19 

83-4 

—  0.661+   .594 

+  .01 

+  .027       o 

.12        .65      .21 

12  G  Sagittarii  * 

4533 

-2844  52.75 

78.0 

-0.679+  -555 

+  .01 

—  .006      o 

.15    1.06    .37 

13  G  Sagittarii 

4534 

-30  14  34.50 

70.1 

—  0.666+   .561 

+  .01 

—  .025       o 

.10      .38    .18 

h  5003.   5"4-7"i  5"  105° 

4535 

+  37  15  48.88 

73-9 

—  0.624+   -30° 

.00 

+  .004       o 

.05      .24    .10 

4536 

-   9  45  4I-07 

78.6 

-0.685+   -481 

+  .01 

-.118       o 

.04        .26     .09 

4537 

-23  48  25.25 

70-3 

-0.610+   .534 

+  .01 

—  .058       o 

.08        .26     .13 

4  Sagittarii  (15  G) 

4538 

+  29  15  30.29 

72.4 

-0.562+   .341 

.00 

—  .027+  I 

.06         .29      .12 

4539 

+  76  58  34.06 

75-2 

—  0.292—   .390 

+  .04 

+  .239+     2 

.05         .22      .09 

35  Draconis 

4540 

-24  1633.87 

79-9 

-0.550+   .536 

+  .01 

-.031      o 

.12         .52      .20 

5  Sagittarii 

4541 

+  51  30    1.74 

64-5 

—  0.526+  .203 

.00 

—  .026      o 

.03         .11      .06 

4542 

+  30  ii  50.78 

72.1 

-0.462+  .335 

.00 

+  .004      o 

.09         .30      .14 

4543 

+43  25  32-°6 

80.9 

-0.441+   .263 

.00 

+  .003       o 

.11         .44      .17 

4544 

-   3  41    1.94 

69.7 

—  0.472+  .463 

.00 

-.052+  I 

.09         .34      .17 

4545 

+    4  22   27.IO 

74-4 

-0.427+  .433 

.00 

—  .017      o 

.11         .31      .16 

66  Ophiuchi 

4546 

-17      911.27 

70.2 

-0.399+  -508 

.00 

—  .012      o 

.11         .36      .l8 

6  Sagittarii 

4547 

+  16  45  23.10 

57-4 

-0.394+  .389 

.00 

—  .010      o 

.12         .43      .26 

93  Herculis 

4548 

+     2  56  IO.42 

76.8 

—  0.396+   .438 

.00 

—  .014      o 

.04         .23      .09 

67  Ophiuchi 

4549 

—  22  46  39.26 

79.8 

-0-373+   -529 

.00 

—  .010      o 

.12         -47      .19 

21  G  Sagittarii  * 

4550 

-87  39  5M9 

78.6 

-0.474+5.197 

-.131-14 

•05      -35    -12 

4532     8«5  pr.     3-8,  S  5' 


4549/8283.     12"  8"  238°. 


1 84 


PRELIMINARY   GENERAL   CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  lo-j  A  |i 

Prob.  Errors. 
aEp.     100  (i    a  10 

M 

h    m         a 

S                     8 

S 

S 

//           //          // 

4551 

Pi  323 

7-i 

17  56  39-33° 

77.0 

+  3-5779+  -o020 

—  .012 

—  .0004       o 

.11             .56-        .21 

4552 

Br  2264 

4-5 

56  40.778 

76.1 

+  3.  0423  +  .002  1 

—  .005 

+  .0005       o 

.11             .38         .16 

4553 

Br  2255 

5-6 

56  43-405 

77-7 

+  3.675I  +  .002I 

-.015 

—  .0001          0 

.10        .42      .16 

4554 

Br  2285 

5-8 

S^SS-iSS 

66.6 

—  1.0422  +  .  0059 

+  .02  1 

+  .0019       o 

.08            .33         .16 

4555 

Pi  353 

6.0 

57    4-809 

69-3 

+  i.7ii6+.oo27 

—  .002 

—  .0006+    I 

.12            .52         .24 

4556 

Br  2268  » 

5-3 

57  15-43° 

65.2 

+  2.5444+.  002  1 

—  .002 

+  .OOIO         O 

.IO            .45          .22 

4557 

Br  22682 

5-3 

57  15-867 

65.2 

+  2.  5444+.  0021 

—  .002 

+  .OOIO         O 

.10            .45         .22 

4558 

L  7473 

5-8 

57  16.304 

90.4 

+  8.3886+.  01  19 

-•553 

—  .0015  +  29 

.15            .96         .24 

4559 

rOphiuchi  m 

5-o 

57  38-185 

70.6 

+  3.2658  +  .OO20 

—  .007 

+  .0014       o 

.11             .48         .22 

4560 

Br  2260 

6.1 

57  44-538 

78.2 

+  3-6775  +  -OOI9 

--015 

.0000       o 

.10        .48      .18 

456i 

L  7542 

6.0 

58    6.384 

81.2 

+  4.0376+.0020 

—  .024 

—  .0023       o 

.l8         1.46         .46 

4562 

Br  2269 

5-4 

58    6.542 

69.2 

+  2.5637  +  .0021 

—  .002 

—  .0001       o 

.11            .50         .23 

4563 

Br  2270 

6-5 

58  19.304 

59-3 

+  2.  5067  +  .OO2  I 

—  .001 

—  .0005      o 

.13            .48         .27 

4564 

W  Sagittarii 

Var. 

58  37-938 

81.1 

+  3-83i8  +  .ooi8 

-.018 

+  .0007       o 

.09            .45          .l6 

4565 

0  Arae 

3-8 

58  50.802 

80.4 

+  4.  6694  +.0018 

—  .048 

—  .0012       o 

.10        .45      .17 

4566 

ir  Pavonis 

4-4 

5857-i7i 

78.0 

+  5-7755  +  .0028 

—  .126 

+  .0024+  6 

.11            .58         .22 

4567 

Pi  342 

7-i 

59    2.544 

79-7 

+  3.6794+.ooi8 

-.015 

+  .0007       o 

.11            .51         .19 

4568 

y  Sagittarii 

2.8 

59  23-°36 

82.1 

+  3.8526+.OO2O 

—  .018 

—  .00'46+    2 

.05        .32       .10 

4569 

L  7550  m 

5-2 

59  35-983 

81.8 

+  4-337o+-o°I7 

-•034 

—  .0005  +   I 

.14            .70         .24 

4570 

L  7507 

6.0 

i7  59  52-I57 

92.2 

+  7.  6220+.  0038 

--387 

—  .0148+18 

.16      1.16      .26 

4571 

7oOphiuchic.g. 

4-3 

18    o  24.110 

75-9 

+  3-°3°3  +  -0033 

—  .004 

+  .0169+  7 

4572 

Groomb  2502 

6.6 

o  32.165 

70.8 

+  1.5662  +  .0024 

—  .002 

+  .0023      o 

.10        .38      .18 

4573 

Pi  357 

6.0 

o  40-535 

77.0 

+  3-2695  +  .ooi8 

—  .OO7 

+  .0014       o 

•  18        -82      .33 

4574 

Paris  23339 

6.0 

0  55-751 

97-5 

+  3-i93i  +  .ooi8 

—  .OO6 

+  .0095       o 

.15        .88      .19 

4575 

t  Pavonis 

5-5 

I    8.410 

84.1 

+  5-5765-  -0014 

—  .IO9 

-.0117-    7 

.18        .80      .27 

4576 

Pi  356 

6-5 

I  11.467 

72.7 

+  3-5965  +  -OOI5 

-.013 

—  .OOIO          0 

.11             .44         .20 

4577 

Pi  359 

4-7 

I  44.956 

78.9 

+  3-7983  +  -OOI3 

-.017 

+  .00.13      ° 

.08            .52          .18 

4578 

Br  2274 

5-6 

i  49-l67 

65-4 

+  2.5254+.002I 

—  .OO2 

—  .0013       o 

.09            .39         .20 

4579 

Paris  23365 

5-8 

2     O.4II 

95-4 

+  3.4774+.ooi4 

—  .OIO 

—  .0078       o 

.14            .84         .l8 

4580 

Br  2273 

4.8 

2  3I-4Q5 

63-7 

+  2.  8673  +  .0018 

-.003 

.0000       o 

.11             .40         .22 

458i 

Br  2275 

3-7 

2  36-5I3 

77-3 

+  2.8433  +  .0018 

-.003 

—  .0042       o 

.03             .22          .08 

4582 

Br  2278 

5-2 

3  13-764 

67.2 

+  2.27<54+.002O 

—  .OOI 

-.0073-  I 

.09            .34         .17 

4583 

L  7588 

6.8 

3  26.711 

89.4 

+  3-9305  +  -  0°!  ! 

—  .O2I 

—  .0008  +   I 

.11      1.  10      .25 

4584 

o  Herculis 

3-8 

3  38-494 

78.8 

+  2-3395  +  -OQ2I 

—  .OOI 

+  .OOO2         O 

.04            .24         .08 

4585 

L  759° 

5-7 

3  38-858 

82.9 

+  3.  8666+.  0009 

—  .019 

—  .0006      o 

.13            .72          .23 

4586 

Br  2279 

6.2 

3  47-6i2 

65.8 

+  2-4l8o+.OO2O 

—  .OOI 

—  .0002       o 

.12            .51         .26 

4587 

Br  2280 

6.2 

3  47-633 

74.2 

+  2.4i65  +  .oo2o 

—  .OOI 

—  .0016      o 

.13           .70         .28 

4588 

e  Telescopii 

4-7 

3  48-413 

80.3 

+  4-453  1  +  .0002 

-.039 

—  .0016       o 

.IO           .50        .18 

4589 

Groomb  2517 

5-2 

4  28.038 

62.5 

+  1.8079+.  0024 

—  .002 

+  .0013+  I 

.12            .69         .35 

4590 

Br  2282 

4-4 

4  28.892 

.67.6 

+  2-5647  +  .OO2O 

—  .002 

—  .0001       o 

.14            .50         .25 

4591 

8  Ursae  Min 

4-3 

4  32.80- 

68.8 

—  19.486  —  .144- 

+  .02  1-  —  89 

.03            .12         .05 

4592 

Br  2283 

5-2 

4  34.120 

67.8 

+  2-585O+.OO2O 

—  .002 

—  .0002       o 

•13        -57      -27 

4593 

Pulkjs  2555 

5-7 

4  34-159 

82.7 

+  2.  0803  +  .OO26 

—  .OOI 

—  .OO72+     2 

.11        .98      .29 

4594 

Br  2277  m 

5-9 

435-537 

70.9 

+  2.  9820+.  OOI7 

—  .004 

+  .0025       o 

.10        .30      .15 

4595 

Pulkjj  2554 

6.0 

4  53-792 

90.8 

+  3.OOIO+.OOI9 

—  .004 

+  .OOI2+     I 

.13        .62      .18 

4596 

Br  2276 

5-3 

5  37-219 

78.8 

+  3.66i2  +  .ooo9 

—  .014 

+  .0018       o 

-ii        -51      -!9 

4597 

Lai  33376 

5-8 

5  40.525 

96-5 

+  2.  997  1  +  .0016 

—  .004 

+  .0019      o 

.14        .98      .19 

4598 

L  7605 

7-5 

6    2.738 

93-8 

+  4.1661  +  .0003 

—  .028 

+  .0049+     2 

.14      1.17      .24 

4599 

Cord  24763 

5-8 

6    7.818 

91.4 

+  4.  2436-  .0002 

-.031 

—  .0049      o 

.18      1.94      .40 

4600 

L  7577 

5-8 

18    6  10.865 

82.5 

+5.6940-  .0037 

-.119 

—  .0095  +   I 

.13        .87      .27 

4552/81125.     IOM  i"  18°. 
4564    4*8  to  sfS. 


4559  S  2262.     5lyl5-6"fl2  2"  256°,  binary,  200  yrs.  ±. 
4569  h  5014.    6fo-6fo  i'.'6  242°,  binary.  4570  Innes.    9*"  a'/6 


232° 


CATALOGUE  OF  6188  STARS  FOR  1900 


No. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3"t 

n'andioo  A(i 

Prob.  Errors. 
SEp.  100  n'  Sio 

Remarks. 

4551 

Of                II 

—  20  44  12.02 

75-o 

//            // 
—  0.291+   .521 

a 

.00 

// 

+   .002     o 

«         //        it 

.11       .48    .20 

4552 

+   I  18  26.11 

69-5 

-0.315+   .444 

.00 

—    .025    o 

.09      .32     .16 

68  Ophiuchi  * 

4553 

-24  1653.79 

78.4 

-0.303+   .536 

.00 

—    .016    o 

.10      .44    .17 

7  Sagittarii 

4554 

+  72    o  52.89 

68.2 

-0.273-    -152 

+  .02 

-    .003     o 

.09      .28    .15 

34  Draconis  (^2) 

4555 

+  45  30  20.81 

63-4 

—  0.299+   -25° 

.00 

—   .044    o 

.11         .42      .22 

4556 

+  21  35  44.83 

53-9 

-0.213+  -371 

.OO 

+   .027     o 

.12         .43      .27 

J95  Herculis 

4557 

+  21  35  45.94 

53-9 

—  0.212+     .371 

.00 

+   .027     o 

.12         .43      .27 

\See  Appendix 

4558 

-75  S3  36-85 

91.0 

-0.504+1.223 

+  .01 

—   .266    o 

.11         .92      .21 

66  G  Apodis 

4559 

-   8  10  48.82 

65-7 

-0.247+     ^76 

.00 

-   .040    o 

.08         .34      .17 

* 

4560 

-24  21  45.92 

76.9 

-0.203+     .536 

.00 

—   .006    o 

.IO         .42      .17 

9  Sagittarii 

456i 

-35  54  15.21 

74-4 

-0.221+     .588 

.00 

-    -055    o 

.l6      1.24      .47 

25  G  Sagittarii 

4562 

+  2049  59.20 

64.1 

-0.183+   -374 

.00 

—    .018    o 

.10         .37      .20 

96  Herculis 

4563 

+  22  55  20.86 

60.2 

-0.148+  .365 

.00 

—     .001       0 

.12         .49      .27 

97  Herculis 

4564 

-2935    4-32 

75-3 

-0.132+  .559 

.00 

—    .012     o 

.09         .44      .l8 

•y1  Sagittarii  * 

4565 

—  50    5  52.60 

79-3 

—  0.129+   .680 

—  .01 

—   .028    o 

.08         .39      .15 

4566 

—  63  40  20.50 

80.2 

-0.283+  -842 

.00 

—   .191     o 

.10      .56    .20 

4567 

-  24  24  13.44 

80.  i 

-0.100+   .536 

.00 

—   .016    o 

.11         .54      .20 

27  G  Sagittarii 

4568 

-30  25  31.06 

80.7 

—  0.248+  .561 

.00 

-  .194-1 

.05         .32      .11 

Also  y2 

4569 

-43  25  47-94 

80.  i 

—  0.142+    .632 

—  .01 

—   .107    o 

.12         .65      .23 

i  G  Coronae  Aust  * 

4570 

-73  4049-25 

92.0 

-0.233+1.109 

—  .02 

—     .221—2 

.13      I.OO     .22 

67  G  Apodis  * 

4571 

+   2  31  21.58 

74-7 

-i-o6l+^,444 

.00 

—  I.IO2  +  2 

See  Appendix 

4572 

+  48  27  33.70 

64.8 

+0.053+   -229 

.00 

+   .006    o 

.09        .31      .16 

3  2277.     8?5  27"  121° 

4573 

-   8  19  54.37 

78.0 

+  0.044+   -477 

.00 

-   -015     o 

•15        -63      -25 

4574 

-   4  45  32.88 

90.0 

+  0.045+   -467 

.00 

—     .036+1 

.13        .60     .18 

4575 

—  62    i  20.56 

82.6 

+0.339+  -8n 

—  .01 

+     .239-2 

.14        .69     .24 

4576 

—  21   27  14.61 

77-i 

+  0.107+  -524 

.00 

+   .003     o 

.11         .46     .19 

4577 

-2828      5.61 

78.6 

+  0.120+     .554 

.00 

-    -°33     o 

•09      -44    -I? 

31  G  Sagittarii 

4578 

+  22    12  34.03 

66.4 

+  0.145+     -368 

.00 

—   .014    o 

.09      .37    .19 

98  Herculis 

4579 

—  17  10    4.20 

93-4 

+  O.224+     -5°6 

.00 

+  .049—1 

.15      I.OO     .22 

458o 

+  8  43  15.55 

59-i 

+  0.246+     .418 

.00 

+  .025    o 

.12        .42      .24 

71  Ophiuchi 

458i 

+  9  32  58.07 

77.0 

+  0.310+     .414 

.00 

+  .082-1 

.04        .22      .08 

72  Ophiuchi  * 

4582 

+  30  32  50.64 

63.8 

+  0-345+     -331 

.00 

+  .063-1 

.08        .31      .16 

99  Herculis  b  * 

4583 

-3243  54-76 

86.2 

+  0.161+  .573 

—  .01 

—   .140    o 

.12      I.OI      .27 

36  G  Sagittarii 

4584 

+  284454.74 

74-9 

+  0.320+   .341 

.00 

+   .002     o 

.04        .26     .IO 

4585 

-  3°  44  40-69 

78.4 

+  0.280+   .563 

.00 

-   -039    o 

.13        .60     .23 

37  G  Sagittarii  * 

4586 

+  26    4  56.12 

64-3 

+  0.360+  .352 

.00 

+   .028    o 

.10      .34    .18 

1  zoo  Herculis 

4587 

+  26    5  10.19 

68.6 

+  0.352+   .352 

.00 

+  .020    o 

.12        .47      .23 

jS228o.     14"  2° 

4588 

-45  58  17.89 

77.2 

+0.296+  .649 

—  .02 

-   -037    o 

.09        .38      .15 

4589 

+  43  2655.97 

56-9 

+0.327+   .264 

.00 

—   .064    o 

-15        -60     -35 

4590 

+  20  47  54.47 

68.1 

+0-375+   -374 

.00 

—   .017     o 

.12         .45      .22 

102  Herculis 

4591 

+  86  36  47.61 

74.0 

+0.446-2.837 

+  .048+3 

.02         .11      .05 

4592 

+  20    i  45.80 

68.8 

+  0-373+  -377 

.00 

—   .027     o 

.IO         .48      .22 

101  Herculis 

4593 

+  36  23  27.59 

81.0 

+  0.206+  .302 

.00 

-  .194-1 

.11         .75      .24 

4594 

+  3  58  34.47 

66.3 

+  0.390+  .435 

.00 

—    .012     o 

.08         .27      .14 

73  Ophiuchi  * 

4595 

+  36  25.32 

93-3 

+  0.224+  -437 

.00 

—   .204    o 

.14         .64      .l8 

/3  637.     12"  7"  193° 

4596 

-23  43  17.68 

78.2 

+  0.464+  .534 

—  .01 

—   .028    o 

.11         .47      .19 

40  G  Sagittarii 

4597 

+  3  18  16.10 

95-4 

+  0.498+   .437 

.00 

+   .002    o 

.13         .94      .19 

4598 

-39  1051.85 

92.9 

+0.372+  .608 

—  .02 

-  -157+1 

.15      I.I4      .25 

4599 

-4i  21  34-35 

89-5 

+  0.522+   .618 

—  .02 

—   .014—  I 

•15    i-54    -35 

3  G  Coronae  Aust 

4600 

-63    452-36 

81.0 

+  0.509+  .828 

-•03 

-  -032—1 

.12         .69      .23 

21  G  Pavonis 

4581  OS  342? 

4585  |3  245.    5*9-8*0  4"  352°- 


4582  Clark  15.     IOM,  binary,  <  2",  64  yrs.  ±. 
4594  2  3281.     6*1-1*6  <  i",  binary. 


i86 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  100  A  p 

Prob.  Errors, 
a  Ep.     100  jo.     a  10 

M 

h    m         s 

s               s 

s 

s 

//            //          rt 

4601 

Pulk«  2558 

6.0 

18    630.185 

88.7 

+  2.0865  +.OO2  1 

—  .OOI 

+  .0007       o 

.12            .63          .18 

4602 

Br  2318 

6-3 

7  31-614 

62.2 

-4-4735-  -0223 

+  •367 

+  .0202—26 

.06            .27         .14 

4603 

Br  2321 

6.0 

7  37-683 

60.2 

-4.4788-  .0223 

+  .368 

+  .0173-24 

.06           .22         .13 

4604 

H  Sagittarii 

4.0 

7  46-989 

67-4 

+  3-5876+  -0007 

-.013 

+  .0003       o 

.03            .18         .08 

4605 

Br  2417 

6.0 

7  47-52 

67.6 

—  22.296'—  .291- 

+  .068-  -II 

.07            .26        .13 

4606 

Br  2291 

5-i 

8    8.384 

71.8 

+  2.257I  +  .OO2O 

—  .OOI 

—  .0006       o 

.07            .30        .I4 

4607 

Br  2286 

5-8 

8  15.416 

79-6 

+  3-  6038  +.OOO6 

-.013 

—  .OOI  I          0 

.13            .48         .19 

4608 

Groomb  2528 

7.6 

8  15.662 

82.0 

+  i.o763  +  .ooi6 

-.003 

+  .0023—   I 

.12            .50        .18 

4609 

Groomb  2527 

6.2 

8  28.661 

67.8 

+  1.2301  +  .0009 

-.003 

+  •0134-   5 

.08           .36         .17 

4610 

L  7621 

5-5 

8  35-524 

86.1 

+  4.3782—  .0012 

-•035 

+  .0055       o 

.18      1.06      .31 

4611 

L  7608 

5-6 

8  42.043 

87.4 

+  5.0517-.  0032 

—  .070 

—  .0047       o 

.15        .82      .24 

4612 

Br  2288 

5-5 

9  14.966 

63.8 

+  3.5786+.  0005 

—  .012 

+  .OOOI         O 

.09        .32      .17 

4613 

Br  2289 

6.2 

9  i5-929 

73-o 

+  3.5694+.  0005 

—  .012 

.0000          0 

.12            .42         .20 

4614 

Groomb  2530 

6.2 

9  44-605 

65-7 

+  1.998  7  +  .002  1 

—  .OOI 

—  .0022          0 

•14        -68      .33 

46i5 

<£  Octantis 

5-7 

10    9^55 

75-8 

+  8.0828-  .0225 

-.480 

—  .0024—     2 

.13      .69    .27 

4616 

Br  2290 

7-4 

10  37.880 

64.1 

+  3.  5740+.  0004 

—  .012 

+  .0005       o 

.14      .54     .28 

4617 

if  Sagittarii 

3-o 

10  51.659 

84.2 

+  4.0592—  .0006 

—  .024 

—  .0115+     2 

.08      .42     .13 

4618 

Br  2293 

6-3 

ii  38.591 

7i-3 

+  3.i440+.ooi4 

—  .OO6 

+  .OOO9+     2 

.12            .8l          .34 

4619 

Pi  24 

4-7 

ii  47.628 

77-9 

+  3-7553-  -0002 

—  .Ol6 

+  .0006       o 

.10        .48      .18 

4620 

Groomb  2533 

5-6 

12  32.129 

84.2 

+  I.865O+.OO2O 

—  .OOI 

—  .0005       o 

.05            .38         .11 

4621 

Dpt  2074  m 

6.8 

12  50.846 

65.2 

+3.  5224+.  0002 

—  .on 

—  .0005       o 

.15            .82          .40 

4622 

Groomb  2539 

6.8 

12  55-993 

70.4 

+  I.O523  +  .OOIO 

-.003 

+  .OOOI—     I 

.16            .57          .28 

4623 

Br  2309 

5-i 

13  19.223 

70-5 

+0.3454-  .0007 

-.003 

+  .0532       o 

.05            .20         .09 

4624 

Groomb  2538 

6.4 

13  56.455 

72.0 

+  1.9020+.  0018 

—  .OOI 

—  .0149—    I 

.10           .50        .21 

4625 

(  Pavonis 

4-3 

14    0.648 

85-4 

+  5-5322--oo88 

—  .104 

—  .OOIO         0 

.14           .72         .22 

4626 

Pulk«  2573 

5-7 

14  19.369 

69-4 

+  2.  8992  +  .00  1  3 

—  .004 

—  .0042       o 

.16         I.  O2         .45 

4627 

Br  2296 

5-7 

14  23.280 

67.2 

+  3-4534+.  0003 

—  .009 

+  .0018       o 

.10        .51       .24 

4628 

8  Sagittarii 

2.7 

i4  35-549 

77-5 

+  3.8412—  .0009 

-.018 

+  .0028       o 

.06           .27         .IO 

4629 

Br  2300 

5-7 

IS    3-783 

73-3 

+  2.  4685  +  .00  1  8 

—  .OOI 

+  .OOI2          O 

.11            .34         .17 

4630 

L  7681 

6.8 

15  21.998 

87-3 

+  3.6936—  .0006 

—  .014 

+  .0006       o 

.14         1.  12         .29 

4631 

1,7671 

5-3 

15  24-915 

88.6 

+  4.I375-.  0021 

—  .026 

—  .0032       o 

.15            .80         .23 

4632 

Y  Sagittarii 

Var. 

15  30.020 

95-5 

+  3-5295-  -oooi 

—  .on 

+  .0005       o 

.14         1.05          .21 

4633 

L  7682 

6.4 

15  40.480 

84.6 

+  3.7964—  .OOIO 

-.017 

+  .0009       o 

.13          1.04         .29 

4634 

Br  2316 

6-3 

15  52.006 

78.0 

-  °-3479-  •°°35 

+  .004 

+  .0029+  3 

.07            .30         .12 

4635 

Br  2299 

4-9 

15  52.482 

66.8 

+  2.9937  +  .001  1 

—  .004 

—  .0010      o 

.10        .39      .19 

4636 

Br  2301 

5-2 

16    4.045 

62.8 

+  2.  5366+.  OOl8 

—  .002 

+  .0007       o 

.12            .46        .25 

4637 

L  7677 

5-7 

16    6.516 

88.6 

+  4.0675—  .0020 

—  .024 

+  .0009       o 

.12            .70         .20 

4638 

i)  Serpentis 

3-3 

16    8.117 

77-9 

+  3.io29+.ooi7 

—  .006 

-.0376+   4 

.03            .l6         .06 

4639 

K  Lyrae 

4-5 

16  21.410 

69.8 

+  2.IOI3  +  .OOI9 

—  .001 

—  .0018      o 

.11             .45         .21 

4640 

Br  2304 

6.8 

1631.681 

87.4 

+  2-3345  +  .0018 

—  .OOI 

—  .0008       o 

.13            .44         .16 

4641 

L  7684 

5-8 

16  43-752 

89.7 

+  4.0530-  .002  1 

—  .024 

+  .OO2O          O 

.13            .72         .20 

4642 

L  7680 

5-5 

17    1.742 

77.1 

+  4-3675-  -0036 

-•035 

+  .0009      o 

•15             -75         -29 

4643 

Br  2307 

5-7 

17    5-949 

81.4 

+  2.  3092  +  .OOl8 

—  .001 

+  .0005       o 

.11             .40         .l6 

4644 

Br  2306 

5-2 

17    6.975 

80.2 

+  2.3394+.  00l8 

—  .OOI 

+  .0004      o 

.12            .34        .16 

4645 

<  Sagittarii 

i-7 

17  32.095 

75-i 

+  3.9823—  .00l8 

—  .022 

-.0035+  I 

.06           .27         .11 

4646 

Br  2322 

7-o 

17  33-883 

63.1 

—  O.3522—  .OO4O 

+  .004 

—  .0064+   4 

.11            .44        .23 

4647 

Groomb  2549 

6-5 

i?  35-524 

58.8 

+  1.4054  +.001  5 

—  .OO2 

-.0035+  I 

.09           .46        .26 

4648 

Paris  23820 

5-9 

17  36.441 

99.2 

+  3-3553  +  -0002 

-.008 

—  .0018       o 

.15       1.  10      .19 

4649 

Br  2308 

5-9 

17  58.477 

67.6 

+  2.soi5  +  .ooi6 

—  .OOI 

+  .OOII—     I 

.11            .52         .25 

4650 

Pulkjj  2584 

4-9 

18  18  10.878 

92.6 

+  3.  2859+.  0002 

-.007 

+  .0029       o 

.13            .72         .18 

4602-3  2  2308.     so"  234°. 


4604  h  2822. 


CATALOGUE   OF   6188   STARS   FOR    1 900 


I87 


Ho. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'and  100  A  p.' 

Prob.  Errors. 
SEp.  loop'  Sio 

Remarks. 

4601 

01                // 

+  36  26  45.16 

85.6 

//                       // 

+  0.571+   .304 

.00 

// 

+  .002          0 

//         //       ft 

.12        .52      .18 

4602 

+  7959  16.60 

59-2 

+  0.780—    .649 

-.04 

+  .122+    3 

.08        .33      .18 

1  40  Draconis 

4603 

+  79  59  28.12 

59-9 

+  0.781—    .650 

-.04 

+  .114+     2 

.08        .32      .18 

1  41  Draconis  * 

4604 

-2i    5    6.33 

68.8 

+  0.676+    .522 

—  .01 

-.005       o 

.04        .20     .09 

Also  p.1  * 

4605 

+  86  59  38.66 

67-5 

+  0.688-3.240 

+  .006+10 

•08        .31      .15 

24  UrsaeMin 

4606 

+  31  22  48.73 

66.9 

+  0.728+   .328 

.00 

+  .016      o 

.07        .27      .13 

104  Herculis  A 

4607 

-2i  44  23.77 

78.8 

+  0.695+   .524 

—  .01 

—  .027      o 

.12         .45      .l8 

14  Sagittarii 

4608 

+  56  I437-85 

72.8 

+  0.762+   .157 

.00 

+  .040      o 

.10     .34    .16 

4609 

+  54  15  23-65 

67-4 

+  0.988+    .181 

.00 

+  .247+    2 

•°7      -35    -i7 

4610 

-44  14  11.50 

81.9 

+  0.770+    .638 

-•03 

+  .019+    I 

.15      .81    .27 

4  G  Coronas  Aust 

4611 

—  56    3  16.02 

85-2 

+  0-735+  -735 

-.04 

—  .O26—     I 

.12         .64      .20 

6  G  Telescopii 

4612 

—  20  45  29.02 

63.2 

+  0.804+  -521 

—  .01 

—  .005      o 

.09         .30      .17 

15  Sagittarii 

4613 

—  20  25    4.21 

69-4 

+  0.800+   .519 

—  .01 

—  .010      o 

.12         .37      .19 

1  6  Sagittarii  * 

4614 

+  38  44  43.21 

64-3 

+  0.851+   .290 

.00 

—  .001       o 

.12         .54      .28 

46i5 

-75    5    9-22 

80.2 

+0.912  +  1.177 

—  .12 

+  .024      o 

.13         .69      .24 

4616 

-203438.39 

72.9 

+0.911+   .520 

—  .02 

—  .019      o 

.14         .51      .24 

17  Sagittarii 

4617 

-36  47  30.22 

78.2 

+0.783+   .589 

—  .02 

—  .167—     2 

.08         .34      .13 

ft  760.    IOM  4"  102° 

4618 

-   3    2    4.39 

71.4 

+0.744+  .457 

—  .OI 

-.274      o 

.11         .6l      .26 

4619 

-27    443-6° 

75-5 

+  1.037+   .546 

—  .02 

+  .006      o 

.10      .47    .19 

51  G  Sagittarii 

4620 

+  42    7  30.09 

79-6 

+  1.089+  -271 

—  .OI 

—  .007      o 

.06         .36      .12 

4621 

-  18  39  28.81 

63-3 

+  1.125+  -512 

—  .02 

+  .OO2         0 

•15      -75    -38 

Sh  8M  17"  52°  * 

4622 

+  5633  14.56 

58.2 

+  1.165+  ^53 

.00 

+  .034      o 

•13      -45    -27 

4623 

+  64  21   48.08 

64.1 

+  1.193+  -°57 

.00 

+  .029+  8 

.05        .22     .11 

36  Draconis 

4624 

+  40  53  49-3  i 

63-7 

+  1.285+  .274 

—  .OI 

+  .066-     2 

.08        .37     .19 

4625 

-61  32  20.93 

85-2 

+  1.233+  .804 

-.O? 

+  .008      o 

.11        .64     .19 

Sellers  10"  3"  151° 

4626 

+   7  13    8.50 

65-9 

+  1.258+  .421 

—  .01 

+.006-  I 

.16    i.oo    .48 

4627 

-15  52  21.47 

71.4 

+  1.219+  -5°2 

—  .02 

-  -039      o 

.11      .65    .27 

4628 

-29  52  14.32 

76.0 

+  1.240+  .558 

-•03 

-  .036      o 

.06    .32   .13 

4629 

+  2424  15.53 

65-4 

+  1.313+  .359 

—  .01 

—  .004      o 

.10      .29    .16 

105  Herculis 

4630 

-2457  36.57 

82.7 

+  I-335+  -537 

—  .02 

—  .008      o 

.13    .98  .30 

56  G  Sagittarii 

4631 

-3842    7.12 

84.2 

+  1.310+  .601 

-•03 

-  -037       o 

.13         .58      .20 

7  G  Coronas  Aust 

4632 

-18  54  16.67 

91.0 

+  1.344+  .513 

—  .02 

—  .on      o 

.15        .80     .21 

Also  57  G.     5*8  to  6f6 

4633 

-28  2832.25 

81.6 

+  1.369+  .552 

—  .02 

—  .001      o 

.13      1.05      .33 

5^G  Sagittarii 

4634 

+  68  43  10.81 

76.4 

+  1.327-  .051 

—  .01 

—  .060      o 

.07        .25      .11 

37  Braconis 

4635 

+  3  J9  55-38 

65.6 

+  1.385+  .434 

—  .01 

-.003       o 

.09        .36     .l8 

74  Ophiuchi 

4636 

+  21  55    7.44 

60.3 

+  1.343+  -368 

—  .01 

—  .061       o 

.12        .49     .27 

1  06  HercuKe 

4637 

-3642  58.22 

85.0 

+  1.387+  .591 

-•03 

—  .021      o 

.11         .54     .17 

59  G  Sagittaniv 

4638 

-    2  55  29.86 

73-3 

+0.711+  .445 

—  .02 

-.699-   5 

.03        .I?      .07 

"Xj. 

4639 

+  36    i    9-33 

63-3 

+  1.461+  .305 

—  .01 

+  .031       o 

.09        .33      .18 

4640 

+  28  56  20.10 

84-5 

+  1.441+  .339 

—  .01 

-.003       o 

.12         .42      .l6 

4641 

-36  I?   13.00 

85-3 

+  1.454+  .589 

-•03 

—  .008      o 

•13      -57    -19 

60  G  Sagittarii 

4642 

-44    935-01 

74-6 

+  1.475+  -634 

-.04 

-  .013      o 

.12      .63    .25 

8  G  Corona;  Aust 

4643 

+  29  48  40.64 

75-2 

+  1.551+  .335 

—  .01 

+  .057       o 

.10     .34    .16 

1  08  Herculis 

4644 

+  28  49  20.30 

76.4 

+  1.542+  .340 

—  .01 

+  .046      o 

.12         .34      .I? 

107  Herculis  t 

4645 

-34  25  54.81 

72-3 

+  1.400+  .578 

-•°3 

-.132       o 

.07         .29      .13 

4646 

+  68  42    7.68 

56.7 

+  1.445-  -°53 

—  .01 

—  .090—    I 

.10        .34     .21 

38  Draconis 

4647 

+  51  18  13.01 

64-5 

+  1.485+  .203 

.00 

—  .052       o 

.09        .40     .20 

4648 

-«    349-55 

93-7 

+  1.508+  .487 

—  .02 

-.031      o 

.14      .86    .20 

4649 

+  23  14    3-33 

66.4 

+  1.646+  .363 

—  .01 

+  .075      o 

.IO         .46      .22 

4650 

-   8  59  10.77 

87.9 

+  1.634+  .477 

—  .02 

+  .045       o 

.12         .58      .l8 

3  G  Scuti  £  Edin*,  2515 

4613  jS  286.     I2M  6"  217° 


4621  Princ.  Star,  ft  639.     7"?3-7l?8  <  o'/S,  rapid  binary. 


i88 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i  and  100  A  n 

Prob.  Errors. 
aEp.     ioo|i    a  10 

M 

h    m        s 

8                      S 

s 

s 

//                         H                   It 

4651 

Pulkss  2587 

5-4 

18  18  23.894 

82.0 

+  2.6497  +  .0015 

—  .OO2 

+  .0045       o 

.IO            .69         .22 

4652 

L  7698 

5-7 

18  35.760 

87.7 

+  3-85S4—  -00l6 

—  .019 

—  .OII2+     I 

.13            .80         .22 

4653 

Groomb  2555 

5-3 

18  59.225 

61.8 

+  1.5342  +  .0013 

—  .OO2 

—  .OO22—     I 

.12            .60         .31 

4654 

L  7690 

5-8 

19  18.225 

89.6 

+  4.5629-  .0053 

-•043 

+  .0026      o 

.20         1-77          .4I 

4655 

Br  2303 

4-9 

19  23.688 

73-8 

+3-5734-  -0007 

—  .OI2 

+  .0006       o 

.O?            .38         .15 

4656 

Br  2311 

4.0 

19  26.192 

80.  i 

+  2.5556+.  002  1 

—  .OO2 

+  .0138+    2 

.04           .21         .07 

4657 

a  Telescopii 

3-6 

19  33-544 

80.0 

+  4.4514-  .0047 

-.038 

—  .OOIO+     I 

.11             .57          .21 

4658 

L  7642 

6.0 

20    4.926 

88.1 

+  7.  7250-  .0359 

-•397 

+  .0014+10 

.14            -75         -22 

4659 

Br  2331 

7-4 

20  39.847 

70.1 

—  0.9116—  .0108 

+  .016 

-.0132-     2 

.IO            .42         .20 

4660 

Pulk»  2591 

6.0 

20  50.133 

88.0 

+  2.8856+.  ooi  i 

-.003 

—  .0003       o 

.12            .58         .17 

4661 

H  Lyrae 

5-i 

20  56.145 

74-9 

+  1.9752  +  .0018 

—  .001 

—  .0018       o 

.08            .28         .13 

4662 

£  Telescopii 

4.2 

21      7.752 

79-4 

+  4.6247—  .0056 

-•045 

+  .0147+   4 

•15        -93      -32 

4663 

L,  7696 

6.0 

21   19.756 

90.6 

+  5.1710—  .0104 

—  .076 

+  .0031+    i 

.16      1.  06      .26 

4664 

L  7712 

5-9 

21  32.099 

89.7 

+  4.1521-.  0036 

-.027 

+  .0002       o 

.18      1.04      .28 

4665 

\  Sagittarii 

2.7 

21  47-976 

76.2 

+  3.7028—  .0012 

—  .014 

-.0035+     2 

.04            .21          .08 

4666 

v  Pavonis 

4-7 

22      2.IO4 

75-5 

+  5.6096—  .0149 

—  .109 

—  .OOIO+     I 

-15            -S8         -25 

4667 

Br  2312 

Var. 

22      5-5I3 

66.7 

+  3.  0684+.  0006 

-.005 

—  .0008       o 

.09            .28         .15 

4668 

Grwu  1603 

6.4 

22      6.395 

65-9 

+  3.5008—  .0008 

—  .on 

—  .0002       o 

•13        -7°      -34 

4669 

PulkM  2594 

5-9 

22      7.341 

94-o 

+  2-3I22  +  .OOI8 

—  .001 

+  .0008       o 

.14        .66      .17 

4670 

<f>  Draconis  m 

4.2 

22   11.533 

76-3 

—  0.8549—  .OII4 

+  .014 

—  .OOO8—     2 

.04        .24      .09 

4671 

Br  2328 

5-i 

22   27.OI4 

83-7 

+  0.8768-  .0008 

—  .004 

-.0043-     I 

.05        .28      .09 

4672 

X  Draconis 

3-6 

22  51.627 

70.1 

—  1.0779—  .O086 

+  .024 

+  .II66+29 

.03        .16      .08 

4673 

Paris  24011 

5-9 

23      5-746 

91.8 

+  2.  9296  +.OOO9 

—  .004 

+  .OOOI          0 

.12        .78      .18 

4674 

Br  2313 

4-7 

23  29.882 

77-7 

+  3.4196—  .OOO6 

—  .009 

+  .OOO2          O 

.06        .34      .13 

4675 

Br  2314 

6.4 

24     4.6l2 

68.7 

+  3.  4207  -.OOO? 

—  .009 

+  .OOIO          0 

.11        .51      .24 

4676 

Pi  82 

6.0 

24  19.207 

77-8 

+  3-5279-  -0010 

—  .on 

+  •0033+     ! 

.12           .60        .23 

4677 

S1  Telescopii 

5-2 

24  20.975 

75-6 

+  4.4462—  .OO62 

-.038 

—  .0014       o 

.15            .69         .28 

4678 

Br23i7 

5-6 

24  28.711 

65.0 

+  3-  I2I4+.  OOO4 

-.005 

+  .0015       o 

.13            .34         .20 

4679 

L  7746 

5-6 

243I-259 

79-3 

+  3  -9367  -.0030 

—  .020 

—  .0004       o 

.10        .48      .18 

4680 

S2  Telescopii 

5-3 

24  38.211 

77.1 

+  4-4395  --0063 

-.038 

—  .0005       o 

.15            .60         .25 

4681 

L7737 

5-8 

24  42.855 

93-2 

+  4-3373-  •°°56 

—  •034 

+  .0007       o 

.20         I.I?          .28 

4682 

L7748 

5-4 

25  23.468 

95-6 

+  4.1811—  .0046 

-.028 

+  .0032+  I 

-15          I-38         -25 

4683 

Pi  100 

6.0 

25  26.965 

81.0 

+  2.4868+.  0016 

—  .001 

+  .0003       o 

.08            .44         .15 

4684 

Pi  88 

7-4 

25  27.031 

74-2 

+  3.  5186-  .0010 

—  .on 

—  .0104+   I 

.10       .57      .23 

4685 

Pi  92 

5-2 

25  34-733 

72-5 

+3-5153-  -0012 

—  .on 

—  .0007       o 

.11            .50         .22 

4686 

Br  2336 

5-i 

25  41-857 

72.4 

+0.1741—  .0046 

—  .002 

+  .0161+   I 

.07            .32         .14 

4687 

Dpt  2100 

6.0 

25  52.926 

96-9 

+3.3269-  .0004 

—  .007 

—  .OOI  I         O 

.15            .75         .18 

4688 

Groomb  2590 

6.7 

26  19.622 

77-4 

+0.8265—  .0015 

—  .004 

+  .0065—    I 

.08            .46         .17 

4689 

0  Coronae  Aust 

4.6 

26  21.753 

84.1 

+4.2875-.  0057 

-.032 

+  .0035       o 

,12            .68         .22 

4690 

Pi  90 

6-5 

26  29.322 

90.6 

+4.  1396-  .0047 

—  .026 

+  .OOO2         0 

.14            .90         .22 

4691 

Pi  89 

6.2 

26  29.354 

90.2 

+4.1383-.  0047 

—  .026 

-.0013      o 

.14            .84         .22 

4692 

PulkM  2607 

5-8 

26  37-561 

89.0 

+  2.  6666+.  0014 

—  .002 

-  -0035      o 

.12            .62         .17 

4693 

Br  2325 

6.1 

26  47-174 

62.3 

+  3.  0980  +.0003 

-.005 

+  .0008      o 

.12            -34         -21 

4694 

Br  2323 

5-9 

27    0.649 

75-7 

+  3.  4255-.  ooio 

—  .009 

—  .0009       o 

.09            .48         .19 

4695 

Br  2319 

7-i 

27    7-596 

75-i 

+  3.6679—  .0021 

—  .014 

—  .0004      o 

.12           .44        .19 

4696 

Pi  102 

7-3 

27  18.610 

67.2 

+  3-5I45-  -OOI4 

—  .Oil 

—  .0003      o 

•15        -57      -29 

4697 

L  7761 

5-5 

27  24.173 

75-4 

+  3-9373-  -°°37 

—  .020 

+  .0003      o 

.12            -57         .23 

4698 

Br  2324 

5-8 

27  46.949 

77-6 

+  3.  665  7  -.002  2 

—  .014 

—  .0003       o 

.09            .42         .l6 

4699 

Br  2327 

6.0 

27  56.238 

75-4 

+  3.4278—  .0010 

—  .009 

+  .0018      o 

.09            .45         .18 

4700 

Br  2326 

7.0 

18  28  25.708 

78.6 

+  3.6707—  .0023 

—  .014 

—  .0004      o 

.13           .52         .21 

46SS  Jacob. 
4671  Z  2323. 


8»?5  2"  290°. 
&*o  3'.'6  358° 


4667 


to 


22316.     7M84"3i7° 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H'  and  100  AH' 

Prob.  Errors. 
BEp.  100  (i/  Sio 

Remarks. 

4651 

o        /           // 

+  17  4633-57 

81.2 

tt                         It 

+  1.615+    -385 

// 
—  .01 

+  .007+    I 

//         //       // 
.10      .59    .20 

4652 

-3048  27.28 

79-8 

+  1.544+    .558 

-•°3 

-.081-    2 

.14      .61    .23 

4653 

+  49    4  15.49 

60.2 

+  1.713+   .223 

.00 

+  .054       0 

.08      .46    .24 

4654 

-48  10  18.33 

87.8 

+  1.663+    -663 

-.06 

-.023       0 

.17    1.42    .36 

1  2  G  Telescopii 

4655 

-  20  35  42.87 

72.6 

+  1.673+    -5i8 

-•°3 

—  .021       o 

•°7      -34    -15 

21  Sagittarii  * 

4656 

+  21  43  26.44 

78.4 

+  1.437+    .372 

—  .01 

—  .26l+     2 

.04        .21      .08 

109  Herculis 

4657 

—  46    i  24.52 

76.8 

+  1.657+    -646 

-•°5 

-  .052       o 

.09        .44     .17 

4658 

-  74    i  38.04 

87.7 

+  1.634+1.121 

—  .20 

—  .120      o 

.12         .67      .19 

30  G  Pavonis 

4650 

+  71  28    6.  20 

70.0 

+  1.836-    .135 

—  .02 

+  .031-     2 

.09         .38      .18 

4660 

+   7  58  32.94 

83.0 

+  1.819+   -4l8 

—  .02 

—  .OOI         O 

.11       .47     .17 

4661 

+  39  27    8.99 

75-9 

+  1.819+   -286 

—  .01 

—  .010      o 

.07         .28      .12 

4662 

-49    7  29.60 

76.6 

+  1.589+   .673 

-.06 

-.257+     2 

.12         .69      .26 

4663 

-5735    4.65 

86.6 

+  1.825+   .750 

-.08 

-  .038       o 

.14         .94      .26 

326  Pavonis 

4664 

-39    3  18.20 

86.3 

+  1.854+   .602 

-.04 

—  .027       o 

•15      -75    -23 

9  G  Corona?  Aust 

4665 

-25  2837.25 

73-4 

+  I-7I3+   -536 

-•°3 

—  .191       o 

.04         .21      .09 

4666 

—  62   20  29.95 

76.2 

+  1.891+   .813 

—  .10 

-  -033      o 

.12         .53      .22 

4667 

+    08   11.28 

67-5 

+  1.923+   .444 

—  .02 

—  .006      o 

.07         .24     .12 

59  Serpentis  d  * 

4668 

-17  51  40.23 

63.6 

+  1.925+   .507 

-•03 

—  .006      o 

•14      -75    -38 

4669 

+  29  46  16.12 

90.4 

+  1.899+   -335 

—  .01 

-  -°33      o 

.14     .55    .18 

4670 

+71  17  4.56 

76.9 

+  1.970-   .125 

-•03 

+  .032      o 

.04        .22      .08 

OS  353-   4"4-6"5  o'-'4  53° 

4671 

+  58  44  33-53 

69-4 

+  2.016+  .126 

.00 

+•055-  I 

.05        .21      .IO 

39  Draconis  b  * 

4672 

+  72  41  22.27 

73-6 

+  1.627—   •I4I 

-•°3 

-.369+16 

.03         .16     .07 

4673 

+  6    7  58.03 

92.0 

+  2.008+   .424 

—  .02 

—  .009      o 

.11         .75      .I? 

4674 

-1437  47-02 

72-3 

+  2.044+   .495 

-•03 

-.008       o 

.06        .32      .14 

y  Scuti 

4675 

-1438  52.05 

69.0 

+  2.119+   -495 

-•°3 

+  .017       o 

.10        .45      .21 

4676 

-  18  47  32.48 

79-3 

+  2.O22+    .511 

-•°3 

—  .101      o 

.11         .57      .21 

74  G  Sagittarii 

4677 

-455855-62 

76.1 

+  2.089+    -644 

-.06 

-  -037      o 

.12        .65      .25 

L  7729 

4678 

-   2    3    0.30 

68.4 

+  2.I06+    .452 

—  .02 

-.031       o 

.IO        .36     .l8 

60  Serpentis  c 

4679 

-33    3  19.28 

77-o 

+  2.089+     .570 

-.04 

—  .052       o 

.10      .43    .17 

75  G  Sagittarii  * 

4680 

-45  49  33-°6 

77-7 

+  2.133+    -642 

-.06 

—  .018      o 

.12         .58      .22 

L  7734 

4681 

-433432-74 

91.4 

+  2.156+    .628 

-.06 

—  .002      o 

.16    i.oi    .25 

12  G  Coronae  Aust 

4682 

-3946  22.83 

93-i 

+  2.157+    .605 

-•°5 

-  -059      o 

.l6      I.I5      .25 

13  G  Corona  Aust 

4683 

+  23  47  58.20 

81-5 

+  2.217+   -359 

—  .01 

—  .005       o 

.06         .40      .13 

4684 

-  18  58  19.97 

76.6 

+  2.033+   -5°7 

-•°3 

—  .189—     2 

.12         .60      .23 

4685 

-  18  28  16.70 

71.6 

+  2.199+   .508 

-•°3 

—  -034      o 

.IO         .45      .20 

74  G  Sagittarii 

4686 

+  65  30    5.59 

68.2 

+  2.216+   .026 

—  .01 

—  .027+    2 

.06         .26      .13 

42  Draconis 

4687 

-1051  53.70 

87.8 

+  2.233+   .480 

-•°3 

—  .026      o 

.13         .49      .17 

22325.     9Mi2"257° 

4688 

+  59  28  56.72 

72.7 

+  2-333+  -"9 

—  .01 

+  •035+    I 

.08         .36      .16 

4689 

-42  23    4.35 

80.8 

+  2.274+  .620 

-•°S 

—  .027      o 

.10      .51    .18 

4690 

-38  47  31.08 

85.0 

+  2.284+  -598 

-•05 

—  .028      o 

.14         .6l      .21 

1  6  G  Coronae  Aust  u1* 

4691 

-3847  52.93 

83-7 

+  2.277+  -598 

-•05 

-  -035     ° 

.13         .58      .20 

176  Coronas  Aust  K* 

4692 

+  1651  33.19 

85-4 

+  2.301+  .384 

—  .02 

-  .023       o 

.12         .51      .I? 

4693 

-    i     4  26.43 

62.2 

+  2-335+  -447 

-•°3 

-.003      o 

.10         .35      .20 

6  1  Serpentis  e 

4694 

-  14  56  16.85 

77-7 

+  2.358+  .495 

-.04 

+  .OOI         O 

.09         .47      .18 

4695 

-24  1056.76 

79.2 

+  2.363+  .530 

-.04 

—  .004      o 

.12         -55      .21 

4696 

—  18  26  29.62 

72.7 

+  2.366+  .508 

-.04 

—  .017      o 

•  13      -54    -24 

4697 

-33    525-94 

72.2 

+  2.383+  .569 

-•°5 

-.008       o 

.11         .58      .25 

77  G  Sagittarii 

4698 

-24    624.95 

79-9 

+  2.406+   .530 

-.04 

—  .018      o 

.09         .36      .14 

24  Sagittarii 

4699 

-  14  55  40.70 

77.8 

+  2.425+  .495 

-.04 

-.013      o 

.09         .49      .l8 

4700 

-2417  55.05 

79-6 

+  2.480+   .530 

-.04 

.000      o 

.13        .51      .20 

25  Sagittarii 

4679  Howe.     IIM  3"  200°. 


4690-1  Dunlop.    32"  358°. 


190 


PRELIMINARY  GENERAL   CATALOGUE  OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  100  A  p. 

Prob.  Errors. 
aEp.     loop     aio 

M 

b    m         s 

s              s 

s 

s 

tr                 tr              it 

4701 

Pi  116 

6.2 

18  28  36.490 

78.0 

+  2.4952  +  .OOI5 

—  .001 

+  .0006       o 

.08            .42          .l6 

4702 

PulkM  2612 

5-6 

29     0-542 

78.6 

+  2.292O+-OOI7 

—  .OOI 

—  .0001       o 

.11             .98         .33 

4703 

Br  2329 

5-4 

29  28.920 

80.8 

+  3-3348—  .0008 

-.007 

+  .0035      o 

.08            .42         .14 

4704 

L7778 

7-i 

29  36.643 

89.2 

+  3.8319-  .0034 

-.018 

+  .OOI2          O 

.14         1.  08         .26 

4705 

Br  2330 

4.0 

_20.  45.912 

76-9 

+  3.2645—  .0001 

—  .007 

—  .OOI5+    2 

.04            .22         .09 

4706 

PulkM  2614 

6.0 

30  48.501 

91.7 

+  2.639O+.ooi3 

—  .OO2 

+  .OOOI         O 

.14            .63         .18 

4707 

Br  2340 

S-o 

3°  5I-°54 

68.8 

+  1.0349—  .0010 

—  .004 

—  .0005      o 

.10        .50      .23 

4708 

Pi  132  m 

5-9 

31  20.704 

79-o 

+  2.4975  +  .OOI5 

—  .OOI 

+  .0015      o 

.08            .42          .15 

4709 

£  Pavonis 

4-1 

31  21.174 

76.4 

+  7.0302—  .0429 

—  .272 

—  .O022+IO 

.07            .42          .l6 

4710 

L  7780 

6.1 

31  40.203 

89-4 

+4-5436-  -0095 

—  .042 

+  .0013       o 

.13            .69         .I9 

47" 

Groomb  2612 

5-5 

31  40.617 

76.6 

+  1.3610+.  OOO2 

—  .002 

—  .0003      o 

.09            .44         .17 

4712 

PulkH  2616 

5-6 

31  41.618 

90.1 

+  2.86n  +  .ooo9 

-.003 

—  .0006+    I 

.12            .63          .18 

4713 

PulkM  2617 

5-6 

31  47-258 

88.5 

+  2.  9166+.  OOO8 

-.003 

—  .OO28+     I 

.12            .60         .18 

4714 

Br  2332 

6.0 

3i  55-159 

74-5 

+  3.  592I-.  0022 

—  .OI2 

—  .OOII+     I 

.11             .48         .20 

47IS 

Br  2339 

7-3 

32    0.685 

57-7 

+  2.  0066  +.00  1  6 

—  .OOI 

—  .0012      o 

.10        .39      .23 

4716 

Pi  128 

7.2 

32    3-°87 

67.9 

+  3.4841—  .0018 

—  .010 

—  .0009      o 

.15           .57         .28 

4717 

L  7790 

5-4 

32  24.051 

91.4 

+4.3129-  .0075 

-.032 

—  .0051+   I 

.20         I.  II         .28 

4718 

Br  2333 

5-9 

32  25.783 

82.4 

+3.6495-.  0027 

-.013 

—  .0006       o 

•o?        -39      -13 

4719 

Pulk«  2619 

5-9 

32  27.637 

78-5 

+  3.0809     .0000 

—  .004 

—  .0005      o 

.12        .93      .32 

4720 

Br  2335 

6.1 

32  55-639 

78.8 

+  3.5781-.  0022 

—  .012 

-.0055+  I 

.10        .48      .18 

4721 

Dpt  2  1  20 

5-6 

32  57-225 

87.9 

+  2.i988  +  .ooi6 

—  .OOI 

—  .0019      o 

.11        .57      .16 

4722 

o  Lyrae 

0.0 

33  33-i69 

66.7 

+  2.0309+.  ooio 

—  .OOI 

+  .0174-   3 

.02        .11      .05 

4723 

Groomb  2630 

8.0 

34  29.228 

83-3 

+0.4028—  .0040 

-.003 

--0055+  8 

.12             .64         .21 

4724 

Groomb  2655 

6.0 

34  34-900 

79-2 

-2.8732-.  0554 

+  .120 

—  .0008+   i 

.05            .36         .12 

4725 

L7785 

4-9 

35  37-834 

73-3 

+5.8985-.  0284 

-.132 

-.0008+  5 

•13            -57          -25 

4726 

Br  2338 

6.4 

35  45-682 

77-6 

+3.6605-  .0032 

-.013 

+  .0024      o 

.11            .42          .l8 

4727 

Pi  173 

6.2 

35  54-408 

83.0 

+0.1907—  .0084 

-.003 

+  .0016—   3 

.06            .45         .14 

4728 

Pi  165  m 

7-i 

36  34-329 

79-2 

+  1.3693  +  .0001 

—  .002 

+  .0013      o 

.13            .54         .21 

4729 

Groomb  2634 

7-9 

36  34-333 

74-9 

+  1.1783—  .0012 

-.003 

+  .OOII—     I 

.10        .39      .17 

4730 

Pi  174 

5-9 

36  39-428 

77.8 

+0.5458-  .0052 

—  .OO4 

+  .OOIO—     I 

.12            .57          .22 

4731 

Br  2342 

4.8 

36  47-904 

79.1 

+  3.2856—  .0012 

•-.007 

+  .0009       o 

•05            -33         •" 

4732 

X  Coronae  Aust 

5-2 

36  55-379 

89.0 

+  4.1190—  .0069 

-.025 

+  .0004+   I 

.IO            .64         .17 

4733 

Pi  170 

6.0 

37  34-965 

58.4 

+  1.3802—  .0003 

—  .OO2 

+  .0017      o 

.09            .48         .26 

4734 

L  7830 

4-9 

37  37-504 

84.0 

+  4.0212—  .0062 

—  .022 

.0000      o 

.14            .8l          .25 

4735 

L  7829 

5-5 

38   0.446 

90.8 

+4.1713-  .0077 

-.027 

+  .0013      o 

.16        .88      .24 

4736 

Br  2343 

5-i 

38    4.489 

85.0 

+  3.2677—  .0012 

—  .OO7 

+  .0013      o 

.06        .39      .12 

4737 

Pi  iSS 

6.0 

38  40.748 

80.5 

+3.  6897  -.0038 

—  .OI4 

—  .0001       o 

.11        .56      .20 

4738 

9  Pavonis 

6.0 

38  48.120 

74-6 

+5.9158-  .0319 

--I33 

-.0051+  3 

.11        .64      .25 

4739 

<£  Sagittarii 

3-2 

39  24-557 

75-9 

+3.  7496-  .0044 

-.015 

+  .0036      o 

.05           .22         .09 

4740 

Br  2346 

5-i 

39  47.099 

68.6 

+  3.0276—  .0001 

—  .004 

+  .0003      o 

.09           .27         .15 

4741 

Groomb  2646 

7-4 

39  59-on 

65.6 

+  1.7619+.  ooio 

—  .OO2 

—  .0023      o 

.16           .64        .33 

4742 

Pulkw  2632 

5-8 

40    6.215 

89.7 

+  2.2528+.OOI7 

—  .001 

—  .0026+   i 

.12            .64         .l8 

4743 

Br  2345 

5-7 

40  18.778 

72.2 

+  3.6192—  .0036 

—  .012 

+  .0019      o 

.11             .38         .18 

4744 

Dpt  2142  m 

6.0 

40  33.460 

91.8 

+  2.  9485  +  .0001 

-.003 

+  .0004      o 

.12            .58         .16 

4745 

Br  2360 

5-i 

40  41.744 

65-9 

+  1.1621—  .0015 

-.003 

—  .0007      o 

.07           .27         .14 

4746 

ft.  Coronae  Aust 

5-3 

40  45-l82 

87.4 

+  4^1985—  .0086 

-.028 

+  .OO2  2         O 

.15            .90        .25 

4747 

«l  Lyrae  s.p. 

S-o 

41    1.566 

68.0 

+  i.9865  +  .ooi2 

—  .OOI 

+  .0008—    I 

.05            .24        .11 

4748 

f  l  Lyra  «./. 

6.7 

4i    1-635 

91.9 

+  I.9858  +  .OOI2 

—  .OOI 

+  .OOOI—     I 

.10        .63      .15 

4749 

e2  Lyrae  m 

4.6 

41    3.996 

66.6 

+  i.9894+.ooi2 

—  .OOI 

+  .0014—    I 

.05           .24         .12 

475<> 

Pulkjj  2634 

6.0 

18  41  12.397 

94-o 

+  3-3095—  -o016 

—  .007 

—  .0002      o 

.13            .8l         .18 

CATALOGUE  OF   6188   STARS   FOR    IQOO 


191 


Ho. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3., 

n'  and  TOO  AH-' 

Prob.  Errors. 
8Ep.  100  n'  8  10 

Remarks. 

4701 

0             /                 // 

+  23  32  3I-56 

75-9 

+  2.504+   .360 

—  .01 

+  .008       o 

•07      -40    .15 

4702 

+  30  2843.83 

75.1 

+  2-524+   -33° 

—  .01 

—  .007       o 

.10      .73    .27 

4703 

-ii    3  19.21 

82.8 

+  2.564+   .481 

-•03 

—  .008       o 

.07     .40  .13 

4704 

—  29  46  42.41 

84.7 

+  2-557+   -553 

—  .05 

—  .026      o 

.14    .97   -28 

80  G  Sagittarii 

4705 

-   8  1850.83 

76.2 

+  2.279+  .471 

-•03 

--3I7       o 

.05     .24   .09 

i  Aquilae  (a  Scuti) 

4706 

+  18    7  23.80 

85.0 

+  2.692+   .380 

—  .01 

+  .005       o 

.13     .49  .18 

4707 

+  5658    8.28 

59-8 

+  2.680+   .148 

—  .01 

—  .010      o 

.09      .29    .17 

45  Draconis  d 

4708 

+  23  31  28.09 

75-5 

+  2.732+   .360 

—  .02 

—  .001       o 

.07     .36  .14 

02  359.  6I!I5-6II!I8  o'/4  342° 

4709 

-71  3049-09 

79.1 

+  2.579+1.014 

-.24 

--I55       o 

.07      .49    .16 

4710 

-47  5945-54 

88.7 

+  2-785+  -655 

-.09 

+  .024       o 

.11    .63  .17 

22  G  Telescopii 

4711 

+  52  16  26.32 

7i-3 

+  2.769+   .195 

—  .OI 

+  .007      o 

.07     .30  .14 

2  2348.     8M  25"  272° 

4712 

+  92  36.69 

85.4 

+  2.636+   .412 

—  -°3 

—  .128       o 

.12         .49      .17 

4713 

+  6  35  34.47 

86.0 

+  2.632+  .420 

—  .03 

—  .140      o 

.11         .54      -I? 

47M 

—  21    28  49.87 

76.7 

+  2.701+  .517 

-.04 

—  .082       o 

.11         .48      .19 

83  G  Sagittarii 

47i5 

+  38  48  47.31 

53-i 

+  2.777+   .288 

—  .01 

—  .014      o 

.11         .52      .32 

4716 

-17  18  57.26 

64.0 

+  2.797+  .502 

-.04 

+  .003       o 

.11         .44      .23 

4717 

—  43  16  18.36 

9°-3 

+  2.776+   .621 

-.07 

-.049-  I 

.16         .99      .25 

1  8  G  Coronae  Aust 

47i8 

-23  35  24-97 

80.8 

+  2.798+  .525 

—  .04 

—  .029      o 

.07         .34     .12 

84  G  Sagittarii 

4719 

-  o  23  37.47 

81.4 

+  2.805+   -443 

-•03 

-.025       o 

.11         .73      .24 

Edin«o  2562 

4720 

—  2i    8    4.60 

81.5 

+  2.717+  .514 

-.04 

-.154-  I 

.10      .52    .18 

86  G  Sagittarii 

4721 

+33  23    5-i2 

81.8 

+  2.871+   .316 

—  .01 

—  .002       o 

.10      .45    .16 

2  2349.     n"  7"  205° 

4722 

+  38  41  25.44 

63-5 

+  3.203+   .294 

—  .01 

+  .279+     2 

.02        .11      .06 

Vega 

4723 

+  6337    8.58 

75-8 

+  2.754+   .056 

—  .01 

-.251-  I 

.10      .43    .18 

2  2365.   IOM  20"  24° 

4724 

+  77  28    8.70 

80.3 

+  3.009-   .416 

-•15 

—  .005       o 

.05         .38      .12 

4725 

-6457  53-79 

70.0 

+  2.960+   .848 

-.18 

-.144       o 

.10         .46      .21 

39  G  Pavonis 

4726 

-23  5535-56 

72.8 

+  3.087+   .526 

-•05 

—  .028      o 

.10      .38    .17 

26  Sagittarii 

4727 

+  65  23  56.77 

80.0 

+  3.210+   .026 

—  .02 

+  .082       o 

.06         .38      .13 

Groomb  2640 

4728 

+  52  15  10.95 

72.1 

+  3.187+   .196 

—  .01 

+  .OO2         0 

.12         .42      .20 

22368.  7"8-8?o2"327° 

4729 

+  55    9    9-52 

75-i 

+  3.244+   .168 

—  .01 

+  .059      o 

.10      .35    .16 

Br  2348 

4730 

+  62  26    7.02 

71.1 

+  3.224+   .077 

—  .01 

+  .031       o 

.12         .47      .22 

4731 

-   9    853.75 

75-6 

+  3.201+   .471 

-.04 

—  .004      o 

.05         .26      .IO 

2  Aquilae 

4732 

—  38  25   IO.22 

83-3 

+  3-157+   -591 

-.07 

-  -059      o 

.10      .45    .16 

- 

4733 

+  52    6    6.39 

60.0 

+  3.300+   .197 

—  .01 

+  .027       o 

.11         .49      -27 

4734 

-35  44  25.35 

81.4 

+  3.223+   .577 

-.07 

--053       ° 

.14         .80      .27 

91  G  Sagittarii 

4735 

-3947  10.70 

86.4 

+3.298+   .599 

-.08 

—  .on      o 

.14         .6l      .20 

20  G  Coronae  Aust 

4736 

-   8  22  26.83 

82.2 

+  3.325+   .469 

-.04 

+  .OIO         O 

.07         .36      .12 

3  Aquilae  (5  H  Scuti  t) 

4737 

-  25    6  40.55 

80.2 

+  3-34I+   .529 

-.06 

—  .026      o 

.11         .55      .20 

94  G  Sagittarii 

4738 

-65  10  51.96 

74-o 

+  3.297+   .848 

-.19 

-.081-  I 

.IO         .49      .20 

4739 

-27    536.98 

74.6 

+  3.427+   .538 

-.06 

-  .003       o 

.05      .25    .10 

4740 

+   i  57  29.21 

69.2 

+  3.441+   .433 

-.04 

—  .022      o 

.09         .31      .16 

4  Aquilae 

4741 

+  44  49  31.51 

54-8 

+3-455+   -251 

—  .01 

—  .025      o 

•13         -51      -31 

22380.    8^526"  9° 

4742 

+  31  49  42.70 

86.3 

+  3.348+   .322 

—  .02 

—  .142      o 

.12         .52      .17 

4743 

—  22  29  48.68 

68.1 

+  3-509+   -518 

-•05 

+  .001      o 

.10      .33    .17 

28  Sagittarii 

4744 

+  5  23  45-49 

79-9 

+  3.515+   .422 

-•03 

—  .014      o 

.11         .36      .15 

22375.  6^6-7  fo  2"  1  14° 

4745 

+  55  26  17.12 

55-3 

+3.563+   .165 

—  .01 

+  .O22          0 

.06        .21      .13 

46  Draconis  c 

4746 

-403045.54 

85-3 

+  3.518+   .601 

-.08 

—  .028       o 

•14     -75    -23 

4747 
4748 

+  3933  54-75 
+  39  33  58.33 

62.9 

85-5 

+  3.621+   .284 
+  3.627+   .283 

—  .01 

—  .01 

+  .051       o 
+  .057       o 

.05         .21      .11 
.09         .42      .14 

J    22382.   3"  13° 

4749 

+  39  30  28.55 

61.2 

+  3.635+   .284 

—  .01 

+  .062       o 

.06         .24      .13 

j     J3<>3-  S  •  2~5  .  5  3    "9 

4750 

-10  13  52.48 

91-3 

+  3.589+   .473 

-.04 

+  .004       o 

.12         .73      .18 

192 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR   IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

HI  and  100  A  p. 

Prob.  Errors. 
oEp.     loop,    a  10 

M 

h    m          s 

8                      S 

s 

s 

//            //         ft 

4751 

Br  2349 

6.0 

18  41  18.749 

68.0 

+  3-0973-  -0005 

—  .004 

—  .0005       o 

.11         .38      .19 

4752 

{'Lyrx 

4.4 

41   19.722 

64.4 

+  2.  0657  +  .OOI4 

—  .001 

+  .OO22         O 

.09        .34      .18 

4753 

Br  2351 

4-3 

41   21.474 

75-8 

+  2.  5806  +.001  6 

—  .001 

-.0015+    2 

.04           .22         .09 

4754 

£2  Lyra 

6.1 

41   21.558 

80.7 

+  2.0655  +  .0014 

—  .001 

+  .0016       o 

•II            -38         -15 

4755 

1,7852 

5-7 

41  37-SIS 

87.6 

+  4-335°-  -0I04 

-.032 

+  .0026      o 

.13           .90        .24 

4756 

Br  2350 

4-5 

41  52.119 

80.5 

+  3-1833-  .0010 

—  .006 

—  .0007      o 

.06        .26      .10 

4757 

Br  2347 

7-4 

41  56.382 

76.0 

+  3.5616-  .0033 

—  .on 

+  .OOIO         O 

.12        .66      .26 

4758 

Pulkw  2642 

5-° 

42      2.683 

83.1 

+  2.4165  +  .0013 

—  .001 

+  .0009       o 

.10        .51      .17 

4759 

R  Scuti 

Var. 

42      8.614 

80.6 

+  3.2018—  .0011 

—  .006 

-  .0043       o 

.10         .48       .17 

4760 

L7»S9 

5-9 

42  23-439 

85.6 

+  4.3219—  .0104 

-.032 

+  .OOIO         0 

.16        .72      .24 

476i 

Br  2354 

4-3 

42  36.272 

74-o 

+  2.6482  +  .0008 

—  .001 

+  .0044—    I 

.08      .27     .13 

4762 

A  Pavonis 

4-3 

42  57.141 

76.0 

+  5-57I3-  -0294 

—  .102 

—  .0023       o 

.11            .51          .21 

4763 

Br  2370 

6.4 

43    7-565 

77-2 

+  0.7093  -.0050 

—  .OO4 

—  .0002       o 

.IO            .40         .l6 

4764 

Br  2352 

5-4 

43  44.096 

68.8 

+  3.  5617-.  0036 

—  .Oil 

+  .0004       o 

.08            .33          .16 

4765 

Groomb  2671 

5-9 

44  29.022 

82.2 

+  1.3414—  .0008 

-.003 

+  .0016      o 

.08            .54         .17 

4766 

K  Telescopii 

5-5 

44  43-637 

87.9 

+  4.7679—  .0167 

-.051 

+  .O04O  +     2 

.l8            .92         .27 

4767 

Br  2353 

6-5 

44  49-83° 

83-4 

+  3.6067—  .0040 

—  .OI2 

—  .0027       o 

.08           .34         .12 

4768 

L  7878 

5-7 

45    I-I57 

8j.a 

+  4.4653-.  0130 

-•037 

+  .0014       o 

•14         1-05         -32 

4769 

L  7881 

6-7 

45    7-955 

90.4 

+  4.2437-.  0103 

-.030 

-.0015       o 

•12            -75         -19 

4770 

Groomb  2677 

6.2 

45  37-875 

71.6 

+  i.58i5  +  .oooi 

—  .OO2 

—  .0021—    I 

.09           .48         .21 

4771 

Br  2361 

7-3 

45  50-785 

72.1 

+  3.1464—  .0010 

-.005 

—  .0032       o 

•II            -52         -23 

4772 

Br  2367 

6.0 

46    2.607 

80.4 

+  2.23i8  +  .ooi4 

—  .001 

+  .OOOI          O 

.11            .36         .15 

4773 

Br  2362 

6-3 

46    7-077 

68.0 

+  3.  1510-  .0011 

-.005 

+  .OOOI          0 

•IS         -45       -24 

4774 

Br  2359 

7.0 

46    7-941 

70.6 

+  3.6048—  .0041 

—  .012 

+  .0024      o 

.12            .45          .22 

4775 

Br  2368 

5-4 

46    8.838 

65-1 

+  2.  2383  +  .0014 

—  .001 

—  .0019       o 

.13             .52         .27 

4776 

ft  l  Lyrae 

Var. 

46  23.275 

68.3 

+  2.  2I44+.  OOI4 

—  .001 

+  .0003       o 

.03            .14         .06 

4777 

P*  Lyra 

7.6 

46  25.112 

67.0 

+  2.2I33  +  .OOI4 

—  .001 

—  .0012       o 

.07            .45         .21 

4778 

K  Pavonis 

Var. 

46  38.421 

82.8 

+  6.2091—  .0462 

-.158 

—  .0012       o 

.13        .68      .22 

4779 

Br  2371 

5-5 

48    0.139 

68.2 

+  2.56i5  +  .oon 

—  .001 

—  .OOIO          0 

•14        -45      -23 

4780 

Br  2363 

6.0 

48    1.530 

77-9 

+  3.  5869-  .0042 

—  .012 

+  .OOOI          O 

.11         .45      .18 

4781 

v1  Sagittarii 

4-9 

48    7.947 

71.4 

+  3.6241—  .0046 

—  .012 

+  .0005       o 

.08        .34      .16 

4782 

Groomb  2719 

5-5 

48  16.380 

70.8 

-1.4743-.  0428 

+  .O22 

+  .0021—   7 

•07         -34      -15 

4783 

Paris  24897 

5-2 

48  59.200 

93-9 

+  3-  4386  -.003  2 

—  .OO9 

-.0015      o 

.13        .70      .17 

4784 

<r  Sagittarii 

2.O 

49    3-9I3 

72.8 

+3.7218-  .0055 

—  .OI4 

+  .0006      o 

.04        .20      .08 

4785 

v2  Sagittarii 

5-o 

49    4.444 

7i-5 

+  3.6284—  .0047 

—  .OI2 

+  .0072       o 

.09        .34      .16 

4786 

L  7909 

5-6 

49    9.449 

90.4 

+  4.2813—  .0118 

-.030 

—  .0018       o 

.13       1.17       .26 

4787 

Groomb  2699 

5-7 

49  20.607 

73-8 

+  1.3458-  .0022 

-.003 

-.0036-   5 

.10        .45      .19 

4788 

Br  2404 

5-5 

49  36.164 

69.8 

—  1.9122—  .0552 

+  .039 

-.0034-   8 

•05        -34      -15 

4789 

co  Pavonis 

5-2 

49  43-233 

83.1 

+  5-3457-  -0300 

-.084 

-.0177       o 

.18        .78      .28 

4790 

o  Draconis 

4.8 

49  43-563 

74-4 

+  0.8880-  .0046 

-.005 

+  .0108      o 

.04        .18      .08 

479i 

Cape,,,  3710 

5-7 

49  45-426 

87-1 

+  3-4571-  -0032 

—  .009 

-.0018+  I 

.12            .56         .17 

4792 

L  7916 

5-6 

49  53-675 

88.4 

+  4.0745-  .0094 

-.023 

+  .0019      o 

.14           .69         .20 

4793 

Pi  225 

6.1 

49  57-403 

78-3 

+  3-6339-  -0049 

—  .OI2 

—  .0004      o 

.IO           .46         .18 

4794 

8  'Lyras 

5-7 

50  13.962 

67.2 

+  2.0942  +  .  0013 

—  .OOI 

—  .0006      o 

.IO            .46         .22 

4795 

Groomb  2701 

7-i 

50  21.667 

80.  i 

+  1.8673  +  .0009 

—  .OOI 

+  .0018      o 

.IO            .52         .19 

4796 

A.  Telescopii 

S-o 

50  27.838 

90-3 

+  4.8094—  .0202 

-•053 

+  .0020      o 

-IS        -88      .23 

4797 

Br  2378 

4-7  • 

So  3!-564 

66.5 

+  2-53I5  +  -oori 

—  .OOI 

—  .0002       o 

.11             .50         .24 

4798 

Br  2374 

5-8 

50  34-892 

77-7 

+  2.9250—  .0001 

-.003 

+  .OOIO+     I 

.11             .34         .16 

4799 

Groomb  2709 

5-i 

5°  44-937 

66.6 

+  1.4861—  .0004 

—  .002 

+  .OOOI         0 

.13            .52          .26 

4800 

82Lyr£e 

4-5 

18  51    0.427 

61.6 

+  2.0975  +  .OOI3 

—  .OOI 

—  .0007      o 

.13            .38         .22 

4751  S  2379.     8M  13"  121°;  IIM  28"  146° 


47S2-4  S  App. 


44"  150°. 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


193 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H/andiooAp. 

Prob.  Errors. 
8  Ep.    100  n'  8  10 

Remarks. 

4751 

0           /               // 

-   i    4    i-93 

65-7 

//                      ft 

+   3.  564+.  442 

// 

-.04 

// 

-  .030      o 

//               It           n 
.09          .31       .16 

5  Aquilae  * 

4752 

+  37  30    1.26 

63.0 

+  3.6i3  +  .295 

—  .01 

+  .017       o 

.08          .31       .16 

See  ?  foil  * 

4753 

+  2027    1.43 

75-8 

+  3.254+.  368 

—  .02 

-  -344       o 

.04          .23       .09 

no  Herculis 

4754 

+  37  29  23-37 

75-8 

+  3.609+.  295 

—  .01 

+  .011         O 

•°9      -35    -IS 

See  £  'prec* 

4755 

-43  47  19.63 

85-1 

+  3.605  +.620 

-.09 

—  .016      o 

.11         .69      .20 

25  G  Coronae  Aust  i;1 

4756 

-   451  17.98 

79-8 

+  3.6i9  +  .455 

-.04 

-  .023       o 

.07         .30      .11 

6  Aquilae 

4757 

—  2O  22  58.48 

76.2 

+  3-633  +  -509 

-.05 

-.015      o 

.12         .58      .23 

4758 

+  2633  17.99 

86.8 

+  3-683  +  -  345 

—  .02 

+  .026      o 

.12         .55      .18 

4759 

-   5  48  45-3° 

77-9 

+  3-633  +  -457 

-.04 

-•033-  I 

.09         .45      .17 

4"7  to  91*0 

4760 

-433239-7S 

84-3 

+  3.664+.  618 

-.09 

-.023       o 

.14         .64      .22 

26  Coronae  Aust  ij2 

4761 

+  18    4  11.92 

77-o 

+  3.8ii  +  .378 

—  .02 

+  .106+  I 

.08         .31      .13 

in  Herculis 

4762 

-62  18    6.98 

73-5 

+  3-724+-796 

-.18 

—  .Oil          0 

.09         .42      .l8 

4763 

+  60  56  30.99 

75-3 

+  3.760+.  100 

—  .01 

+  .OIO         O 

.09         .34      .15 

S  2403.    9M  i  "7  262° 

4764 

—  20  26  18.62 

73-1 

+  3.827  +  .508 

-•05 

+  .025      o 

.10      .38    .17 

29  Sagittarii 

4765 

+  52  52  40.23 

79.0 

+  3.851  +  .  190 

—  .01 

—  .016      o 

.08        .39     .15 

4766 

—  52  13  19.21 

84-5 

+  3.785  +  .  68r 

-•!3 

-.103+  I 

.14        .71      .23 

4767 

-22    1635.83 

84.9 

+  3-872  +  .  514 

-.06 

—  .024      o 

.08         .38      .12 

30  Sagittarii 

4768 

—  46  42  45.96 

82.0 

+  3.888  +  .  637 

—  .11 

—  .025       o 

.11         .87      .27 

34  G  Telescopii 

4769 

-41  49  32.58 

88.7 

+  3.899+.  605 

-.09 

-  .023       o 

.11         .63      .17 

28  G  Coronas  Aust 

4770 

+  48  39  10.14 

67.1 

+  4.006+.  224 

—  .01 

+  .041      o 

.08         .36      .I? 

477i 

-   3  22  36.00 

71.6 

+  3-9I5  +  .447 

-.04 

—  .069      o 

.IO         .44      .20 

7  Aquilae 

4772 

+  32  4i  5°-°9 

73-3 

+  3-986+.3i7 

—  .01 

—  .014      o 

.09         .31      .15 

8  Lyrae  v1 

4773 

—   3  26    6.10 

67.6 

+  3.970+.  448 

-.04 

-  -037       o 

.12         .40      .21 

8  Aquilae 

4774 

—  22      2   19.72 

76.4 

+  3-963  +  -5I3 

-.06 

-  -045      ° 

.12         .40      .l8 

31  Sagittarii 

4775 

+32  26   8.25 

64-7 

+  4.001  +  .318 

—  .02 

—  .008       o 

.11         .49      .25 

9  Lyrae  v2 

4776 

+  33  1446-96 

64.8 

+  4.023  +  .3I5 

—  .01 

—  .007      o 

.02         .13      .06 

13*4  to  4*I5 

4777 

+  33  H    7-56 

63.2 

+  4.020+.  314 

—  .01 

-.013      o 

.07         .37      .18 

}SApp.     46"  149° 

4778 

-67  21  31.25 

82.4 

+  4.067  +  .885 

-.26 

+  .015      o 

.11         .60      .20 

4?o  to  5^5 

4779 

+  21  18  16.03 

66.8 

+  4-I55  +  -364 

—  .02 

-.013      o 

.11         .41      .21 

112  Herculis 

478o 

—  21  28  56.03 

78-3 

+  4.I58  +  .5IO 

-.06 

—  .012       o 

.12         .45      .19 

33  Sagittarii 

4781 

—  22  52      4.80 

7i-3 

+  4.162  +  .  515 

-.07 

—  .017       o 

.08        .26     .13 

Br  2364 

4782 

+  73  58  n-33 

74-2 

+  4.272—  .212 

—  .11 

+  .081       o 

-07         -35      -14 

4783 

-15  43  4°-20 

87.2 

+  4.244+.  488 

-.06 

—  .008       o 

.14         .63      .20 

Edin«  2608 

4784 

—  26  25  15.62 

74-2 

+  4.193  +  .  528 

-.07 

—  .066       o 

.04         .22      .09 

4785 

-22  47  46.51 

70.1 

+  4.228  +  .5i6 

-.07 

-.032+  I 

.09         .31      .16 

Br  2366 

4786 

-42  50  13.23 

90.5 

+  4.  224  +  .  608 

—  .11 

-  -043       o 

.12      1.  2O      .26 

30  G  Coronae  Aust 

4787 

+  52  5045.54 

70.4 

+  4.569+.  189 

—  .01 

+  .286      o 

.09         .38      .17 

4788 

+  7SI8S8-33 

70.6 

+  4.382-.  275 

-.14 

+  .077       o 

.06         .33      .14 

50  Draconis 

4789 

-60  1954-39 

84.4 

+  4-359+-7S7 

-.19 

+  .044—     2 

.15         .71      .24 

4790 

+  59  IS  57-66 

63-9 

+  4.339+.  126 

—  .01 

+  .023+    2 

.04         .l6      .08 

22420.  8M32"334° 

479i 

-16  2954.15 

83-9 

+  4.133  +  .490 

-.06 

-.185       o 

.13         .63      .21 

114  G  Sagittarii 

4792 

-37  28  14.81 

84.8 

+  4-3J3  +  -579 

-.09 

—  .017       o 

.13         .59      .20 

3  1  G  Coronae  Aust 

4793 

-23  18    3.81 

79-6 

+  4-320+.5I5 

-.07 

—  .015       o 

.11         .50      .19 

116  G  Sagittarii 

4794 

+  36  5°  47-39 

64-5 

+  4.350+.  296 

—  .01 

—  .009      o 

.11         .44      .23 

Br  2380 

4795 

+  42  46  38.67 

77-4 

+  4.350+.  264 

—  .02 

—  .020      o 

.10      .43    .17 

4796 

-53    410-15 

87.2 

+  4.393  +  .683 

-•15 

+  .014      o 

.13         .64      .20 

4797 

+  2231    5.71 

64.4 

+  4.388  +  .358 

—  .02 

+  .004      o 

.08         .38      .19 

113  Herculis 

4798 

+  6  29  23.95 

74-5 

+  4.299+.  414 

-.04 

—  .090      o 

.11         .34      .16 

62  Serpentis 

4799 

+  5035    1.  10 

64.6 

+     4.370+.  210 

—  .02 

-  -033       o 

.14         .50      .27 

4800 

+3646  17.25 

55-4 

+     4.431  +  .296 

—  .02 

+  .006       o 

.11         .40      .24 

194 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    1 900 


No. 

Designation. 

Mag. 

R.  A.  1000 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i  and  100  A  |i 

Prob.  Errors. 

aEp.     i  oon     a  10 

M 

h     m           s 

s               s 

s 

s 

//                //             n 

4801 

Br  2381 

6-3 

18  51  12.633 

75-o 

+  2.i979  +  .ooi3 

—  .001 

—  .0007       o 

.10        .58      .23 

4802 

6  l  Serpentis 

4.8 

51  14.897 

71.1 

+  2.9826—  .0005 

-.003 

+  .0031       o 

.04            .22         .IO 

4803 

6  2  Serpentis 

5-° 

51  16.329 

64.8 

+  2.9825—  .0005 

-.003 

+  .0029      o 

.10        .32      .17 

4804 

Br  2372 

5-2 

Si  23.913 

67.0 

+  3-5658-  -0045 

—  .010 

—  .0012      o 

.11             .32          .I? 

4805 

Groomb  2711 

5-8 

51  40.019 

85-4 

+  i-92o8  +  .ooio 

—  .001 

—  .0001       o 

.12           .45         .16, 

4806 

L  7936 

7-6 

51  41.400 

82.0 

+  3-8537-  -0074 

-.017 

.0000      o 

.16      1.  10      .35 

4807 

Pulksi  2669 

6.0 

Si  4I-403 

80.5 

+  2.6452  +  .0010 

—  .001 

—  .0044+  I 

.13        .86      .28 

4808 

Br  2375 

S-* 

51  42.428 

65-7 

+  3.2129—  .0018 

—  .005 

+  .0042       o 

.10        .36      .19 

4809 

£  Sagittarii 

3-5 

51  45.882 

68.5 

+  3.5808—  .0046 

—  .Oil 

+  .0023      o 

.07        .27      .13 

4810 

t  Corona?  Aust 

5-i 

51  58.718 

89.0 

+  4.0512—  .0096 

-.023 

—  .0109+   I 

.10        .60      .16 

4811 

Pi  254 

6.0 

52    8.874 

60.9 

+  1.5827  +  .0003 

—  .OO2 

—  .0058+     2 

.14        .56      .31 

4812 

L  7943 

6.8 

52  12.631 

84.2 

+  3.6780—  .0056 

-.013 

—  .0017       o 

.14      i  .06      .31 

4813 

Br  2379 

S-7 

52  14.858 

61.4 

+  3.  oi  74-  .0007 

—  .OO4 

—  .0003      o 

.10        .45       .24 

4814 

R  Lyrse 

Var. 

52  17-534 

79-3 

+  1.8259  +.0006 

—  .OOI 

+  .0026—    I 

.04         .26       .09 

4815 

Br  2388 

5-5 

53  16.676 

79.1 

+  2.  2488+.  00l6 

—  .OOI 

+  .0137+    2 

.11      .42     .17 

4816 

PulkM  2675 

5-5 

53  46.699 

90.6 

+  3.  3  718-  .003  1 

-.007 

—  .0001       o 

.12        .68      .18 

4817 

PulkjB  2677 

5-7 

53  47-759 

86.0 

+  2.  669  1  +  .0007 

—  .OOI 

—  .0002      o 

.11        .56      .17 

4818 

Br  2385 

6.2 

54  11-482 

75-7 

+  2.7534+.  0005 

—  .002 

—  .0005       o 

•io        -33      -IS 

4819 

L  7956 

6.8 

54  16.594 

83-4 

+  3.6830—  .OO6O 

-.013 

+  .0026      o 

.15        .92      .28 

4820 

Br  2387 

5-4 

54  29.496 

78.0 

+  2.  7  609  +  .0005 

—  .002 

+  .OOOI+     I 

•ii        -33      -15 

4821 

Pulkj,  2680 

6.0 

54  36.564 

94.1 

+  2.O53I  +  .OOI2 

—  .OOI 

+  .0002      o 

.14        .68      .18 

4822 

Br  2400 

6.0 

55    3-584 

65.2 

+  1.0160—  .0038 

—  .004 

—  .0044+  I 

.08        .28      .15 

4823 

t  Aquilae 

4.2 

55    5-oi7 

72.0 

+  2.72i8  +  .ooo6 

—  .OOI 

—  .0044      o 

.03        .20      .08 

4824 

y  Lyrae 

3-2 

55  12.170 

78.2 

+  2.  2436+.  OOI3 

—  .OOI 

—  .0002       o 

.03        .20      .07 

4825 

v  Draconis 

5-° 

55  37-452 

77-4 

—  0.7196—  .0309 

+  .OOI 

+  .OIIO—    2 

.05           .22         .09 

4826 

PulkM  2681 

5-5 

55  41-051 

86.0 

+  2.4437  +  .OOI2 

—  .OOI 

+  .0066      o 

.11            .56        .17 

4827 

Pi  287  m 

6.7 

55  49-590 

70.8 

+0.9930—  .0046 

—  .004 

+  .0034-  I 

.15           .52         .26 

4828 

Pi  260 

6.7 

55  50-645 

83-7 

+  3.4298-  .0038 

-.008 

—  .0004      o 

.08           .50        .15 

4829 

Pulkjs  2689 

5-9 

55  59-159 

80.  i 

+0.2750—  .0125 

—  .006 

—  .0007  +   I 

.12            .92          .30 

4830 

£  Corona  Aust 

4-9 

56    2.027 

86.4 

+  4.2549-  .0132 

—  .028 

+.0053+  I 

.16            .72          .24 

4831 

X  Lyrae 

5-2 

56  14.481 

82.6 

+  2.  2630+.  0013 

.000 

+  .0009      o 

.12           .38         .16 

4832 

£  Sagittarii  m 

2.7 

56  15.016 

78.8 

+  3.8199—  .0078 

-.015 

—  .0016       o 

.06           .26         .IO 

4833 

Groomb  2742 

6.8 

56  17.019 

75-i 

+  0.6077—  .0083 

—  .o°5 

+  .0005+  I 

.IO           .50        .20 

4834 

Br  2391 

4.0 

56  20.422 

79-7 

+  3.  203  7  -.0020 

-.005 

—  .002  1       o 

.09           .42         .l6 

4835 

Pi  261 

5-9 

56  20.461 

81.4 

+3-6743-  -0059 

—  .012 

—  .0021+   I 

.11            .52         .19 

4836 

L  7962 

5-9 

56  28.172 

93-8 

+4.1015-  .0113 

—  .023 

+  .OO2O         O 

.16        1.36        .28 

4837 

Radcl  4177 

'7.0 

56  54.385 

85.6 

—  1.9874—  .0646 

+  .036 

+  .OO5O+     2 

.13           .72         .22 

4838 

Br  2421 

6.7 

56  55-427 

71.9 

—  1.9884—  .0654 

+  .036 

+  .0045-     2 

.10        .44      .19 

4839 

PulkM  2688 

S-7 

57  13-626 

93-4 

+  2.4362  +  .OOI  2 

—  .001 

—  .0003       o 

.14        .66      .17 

4840 

Pi  274 

8-5 

57  35-397 

71.0 

+  3.0878—  .0012 

—  .004 

-.0038+  I 

.16        .63      .30 

4841 

Br  2394 

5-6 

57  38-5I5 

66.6 

+  3.1607—  .OOl8 

-.005 

+  .0014      o 

•13        -50      -25 

4842 

PulkM  2693 

5-5 

57  42.836 

86.4 

+  1.5106—  .OOO7 

—  .002 

+  .0023       o 

.11        .52      .17 

4843 

L  7976 

5-7 

57  59-8o7 

83.0 

+  3.8560—  .0084 

—  .016 

+  .0003      o 

.13        .72      .23 

4844 

p  Telescopii 

5-3 

58  24.976 

83.8 

+  4.7597—  .0222 

-.049 

+  .0027+    2 

•15        -78      -25 

4845 

PulkM  2691 

6.0 

58  28.685 

86.6 

+  3-0339-  -o010 

—  .004 

—  .0006      o 

.11        .54      .17 

4846 

Pi  299 

5-2 

58  36.610 

75-2 

+  1.697  7  +  .0003 

—  .OOI 

+  .0019+  I 

.10        .39      .16 

4847 

o  Sagittarii 

3-9 

58  41.462 

64.4 

+  3-5970-  .0055 

—  .on 

+  .0052      o 

.06        .27      .14 

4848 

Br  2408 

5-7 

58  44.690 

65.8 

+  1.1884—  -0030 

-.003 

—  .0019      o 

.08        .27      .14 

4849 

L  7944 

5-4 

59  16.703 

80.0 

+  6.392  1  -.0639 

-.166 

+  .0267      o 

.16        .70      .27 

4850 

L  7973 

6-3 

18  59  23-377 

91.6 

+  4.5316—  .Ol88 

-.038 

+  .0016      o 

•iS        -93      -23 

4801  02  525.    io"  i»j  128°;  7"  45"  350°. 


4820  2  2424.    9M  17"  265°. 


CATALOGUE  OF  6 1 88  STARS  FOR  1900 


195 


Ho. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

p/and  100  A  ji' 

Prob.  Errors. 
>  Ep.    loop'  8  10 

Remarks. 

4801 

0             /                 // 

+  33  S°27-21 

67-7 

//                      // 

+  4-449  +  -3  10 

a 
—  .02 

// 

+  .007       o 

//         //        // 
.09      .37     .18 

* 

4802 
4803 

+   44  23-76 
+   44  18.17 

71.8 
56.9 

+  4.472  +  .422 
+  4-466+.422 

-.04 
-.04 

+  .027       o 
+  .018       o 

.04         .22      .IO 
.08         .32      .19 

22417.     22"  103° 

4804 

-2047  13.58 

63.8 

+   4.447  +  .505 

-.07 

—  .on       o 

.10      .30    .17 

36  Sagittarii  £* 

4805 

+  41  28  27.97 

80.8 

+   4.474+.  271 

—  .02 

—  .007       o 

•ii      -37    -IS 

4806 

-3°57  23.38 

78.1 

+   4.48  1  +  .546 

-.08 

—  .002       o 

.16    1.19    .41 

4807 

+  17  S8  47-9° 

79-3 

+  4-3IO+-374 

-•03 

-•173-     ! 

•13      -77    -27 

4808 

-  s  5833-77 

66.4 

+  4.453  +  .455 

-•OS 

-.032+     I 

.09      .32    .17 

9  Aquilae 

4809 

-2i  14  17.33 

69.2 

+   4.471  +  .507 

-.07 

—  .018       o 

.07      .27    .13 

37  Sagittarii  £  2 

4810 

-37  I4IS-73 

83-3 

+  4-4I5  +  -572 

-.09 

-.093-     2 

.10     .45    .16 

4811 

+  48  44    2.87 

53-7 

+  4.391  +  .  222 

—  .02 

-.131-     I 

.14      .51    .32 

/3  1255.    12"  i'.'6  89° 

4812 

-25    035.72 

82.4 

+  4-5I5  +  .520 

-.08 

—  .012       o 

.12         .8l      .25 

122  G  Sagittarii 

4813 

+     2   24  13.53 

60.2 

+  4-5!3  +  -427 

-•05 

—  .018       o 

.10      .43    .24 

64  Serpentis 

4814 

+43  48  50.94 

73-2 

+  4.606+.  258 

—  .02 

+  .072       o 

.05         .27      .11 

Br  2389.     4"o  to  4*7 

4815 

+  32  46  22.68 

78-3 

+  4-458  +  .3I9 

—  .02 

—  .l6o+     2 

.IO         .38      .16 

0648.  9*5-1"  ±,  binary 

4816 

-12  58  34.21 

86.5 

+  4.636+.  476 

-.06 

-.025      o 

.12         .64      .19 

126  G  Sagittarii 

4817 

+  17    1334-83 

85-9 

+  4.654+.  376 

-.04 

—  .008      o 

.12         .51      .17 

Hough.     12""  6"  132° 

4818 

+  13  46  19.63 

77-8 

+  4.644  +.388 

-.04 

—  .052       o 

.11         .36      .l6 

10  Aquilae 

4819 

-25      452.62 

79-o 

+  4-742  +  .520 

-.08 

+  -039       o 

•15      -96    -33 

127  G  Sagittarii 

4820 

+  13   29  21.20 

68.6 

+  4.602  +  .389 

-.04 

—  .120      o 

.09      .28    .15 

n  Aquilae  *     . 

4821 

+  38      7   50-47 

88.0 

+  4.731  +  .  289 

—  .02 

—  .001       o 

•13      -Si    -17 

4822 

+  574055-58 

54-6 

+  4.705  +  .  141 

—  .OI 

—  .065—   I 

.07         .21      .13 

48  Draconis 

4823 

+  145556.34 

71.7 

+  4.695  +  .383 

-.04 

-.077-  I 

.04        .21      .09 

4824 

+  32  33    7-78 

7i-3 

+  4-775  +  -3i6 

—  .02 

—  .007       o 

.04        .21      .09 

05544.  I2MI3"300° 

4825 

+  71    948.86 

7i-3 

+  4.858-.  102 

-.07 

+  .040+     2 

.05         .21      .10 

4826 

+  26    530.78 

84-9 

+  4.804+.  344 

-•03 

-.019+     I 

.12         .50      .I? 

4827 

+  58    5  iS-43 

59-8 

+  4.881  +  .139 

—  .02 

+  .046       o 

.12         .42      .24 

S  2438.    iV2-if»  <  i",  binary 

4828 

-15  25  25.77 

81.2 

+  4.830+.  483 

-.06 

—  .007       o 

•09      -57    -19 

129  G  Sagittarii 

4829 

+  65    7  24-37 

81.8 

+  4.809  +  .03  7 

-•°3 

—  .040      o 

.12      1.04      .32 

4830 

-42  14  13.22 

83.0 

+  4-796+.6oi 

—  .11 

-.057+  I 

.14         .60      .21 

4831 

+  32    o  19.65 

75-6 

+  4.877  +  .3i8 

-•03 

+  .007       o 

.11         .33      .16 

4832 

-30    i  23.03 

77-8 

+  4.87i  +  .s38 

-.09 

.000      o 

.06         .32      .12 

# 

4833 

+  62  15  40.36 

70.8 

+  4.83  1  +  .084 

—  .02 

-  -043       o 

.08         .35      .16 

5  2440.    9"  i7"  123° 

4834 

—  5  52  48.00 

79.1 

+  4.842  +  .45  1 

-.06 

-  -037       o 

.08         .34      .13 

12  Aquilae 

4835 

-  24  59    4.90 

78.8 

+  4-703  +  -5I7 

-.08 

—  .176      o 

.12         .48      .19 

131  G  Sagittarii 

4836 

-  38  23  50.67 

91.2 

+  4.896+.578 

—  .11 

+  .006       o 

.14      1.09      .25 

40  G  Coronas  Aust 

4837 

+  7539    8.60 

88.4 

+  4.915-.  282 

-•17 

—  .012+   I 

.12         .65      .18 

Is  2452.    6"  218° 

4838 

+  75  39  i4-oi 

68.0 

+  4.952-.  282 

"•I? 

+  .024+  I 

.09         .29      .15 

4839 

+  26    857.43 

87.0 

+  4.947  +  .342 

-•03 

—  .007       o 

.13         .51      .18 

4840 

—  o  51    8.06 

63-7 

+  4.867  +  .433 

-•05 

-.118      o 

.13         .41      .23 

* 

4841 

-   3  50  38.29 

68.0 

+  4.996  +.444 

-.06 

+  .007       o 

.11         .41      .20 

14  Aquilae  g 

4842 

+  50  23  29.58 

89.0 

+    4.983  +  .  212 

—  .02 

—  .012          0 

.12         .59      .17 

4843 

-31  ii  37.13 

79-4 

+  4.991  +  .542 

-.09 

—  .028       o 

.12         .60      .22 

134  G  Sagittarii 

4844 

-52  29  14.75 

82.8 

+  4.937  +.670 

-•17 

-.118       o 

.11         -55      .19 

4845 

+   i  40  27.07 

83-5 

+  4.994+.  426 

-•05 

—  .066      o 

.11         .46      .l6 

4846 

+46  47  34-32 

70.6 

+  4.982  +.238 

—  .02 

—  .089      o 

.09         .31      .15 

1  6  Lyrae  * 

4847 

-2i  53  17.03 

64.8 

+  5.01  1  +  .506 

-.08 

-.067+  I 

.07         .33      .16 

4848 

+  5S3053-73 

S3-2 

+  5-o73  +  -l65 

—  .02 

—  .009       o 

.08         .23      .15 

49  Draconis 

4849 

—  68  34  40.64 

82.3 

+  5.081  +  .902 

-•34 

-.047+   4 

.14         .69      .24 

56  G  Pavonis 

4850 

-48  27    1.13 

88.0 

+  5-I39+-637 

-•IS 

+  .OO2         O 

.12         .63      .18 

47  G  Telescopii 

4832  Winlock.     3ll4-3ly6  <  i",  binary,  21  yrs.  ±. 


4840  2  2434-     9M  24"  129°;  BC:  io«s  i'/3  54°- 


4846  h  1362.     IIM  43" 


196 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQCO 


No. 

Designation. 

Mag 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

|i  and  zoo  A  n 

Prob.'Errors. 
o  Ep.     ioo)i    a  10 

M 

h     m          s 

S                      8 

s 

s 

"                 ii             u 

4851 

7  Coronae  Aust  m 

4-3 

18  59  39.564 

82.1 

+     4.0607—  .OIO8 

—  .021 

+  .0679+  3 

.11        .52      .19 

4852 

Br  2398 

7-5 

59  39-725 

88.7 

+     3.1668—  .OOI9 

-.005 

—    .OOOI          0 

.12           .56        .17 

4853 

Br  2399 

5-8 

59  40.862 

73-1 

+     3.1670—  .OOI9 

-.005 

+  .0003      o 

.09      .30     .14 

4854 

o-  Octantis 

5-5 

5943.7I- 

73-2 

+  I02.437—38.8iq 

+  .I09-+I24 

.04        .26      .10 

4855 

Groomb  2753 

6.7 

59  45-87° 

61.8 

+      I.4IO8—  .OOI4 

—  .002 

—  .0019      o 

.16      .64     .35 

4856 

Paris  25305 

6.0 

18  59  57.528 

90.2 

+     3-4373-  -0042 

—  .008 

—  .0006      o 

.12            .62         .17 

4857 

r  Sagittarii 

3-3 

19    o  41.860 

78.7 

+     3.  7484-  .0072 

—  .014 

r~!oo45+   2 

.06        .26      .10 

4858 

{  Aquilae 

3-° 

o  48.839 

69.8 

+  2.7570+.0004 

—  .001 

—  .0096+   I 

.03      .15     .06 

4859 

X  Aquilae 

3-4 

o  56.538 

78.8 

+    3.1842—  .0021 

—  .005 

—  .0017+   I 

.04         .20      .07 

4860 

Bruss  7916 

6.0 

I    9.228 

94-8 

+    2.  2849+.  0013 

.000 

+  -0055       o 

.13      .84    .18 

4861 

Pi  293 

6.4 

1  13.093 

82.9 

+  3.7809—  .0081 

—  .014 

+  .0002       o 

.12            .58         .20 

4862 

8  Coronae  Aust 

4.6 

1  23.308 

82.3 

+  4.1820—  .0135 

-.025 

+  .0030      o 

.13            .58         .21 

4863 

Br  2440 

6.7 

2      9.221 

72-5 

-  2.4761-.  0873 

+  .051 

-  .0117+  7 

.07      .38    .16 

4864 

Y  Aquilae 

Var. 

2  16.163 

61.4 

+  2.8234     .0000 

—  .002 

—  .0006       o 

.13      .48     .27 

4865 

Br  2402 

5-5 

2   24.195 

77.6 

+  3-5269-  -0054 

—  .010 

+   .OOOI         O 

.11       .62      .23 

4866 

Br  2409 

5-9 

2  28.239 

74-5 

+  2.5oo8  +  .ooio 

—  .001 

+  .0041       o 

.13        .66      .27 

4867 

Pi  318 

5-7 

2  39.609 

78-3 

+  2.3799+.OOH 

.000 

+  .0054       o 

.11      .63     .23 

4868 

o  Coronae  Aust 

4-2 

2  40.214 

83-7 

+    4.0873—  .0122 

—  .022 

+  .0074+  I 

.10        .48      .16 

4869 

Br  2416 

5-5 

2  40.360 

67.8 

+   1.3490—  .0022 

-.003 

—  .0006       o 

.07            .21         .11 

4870 

Groomb  2765 

6.6 

3    2-587 

67.0 

+  1.9450+.  0009 

—  .001 

+    .OOIO          O 

.16      .70    .34 

4871 

/8  Coronae  Aust 

4.0 

3    9-065 

82.4 

+  4.1322-.  0131 

-.023 

—    .0002         O 

-II       .50     .18 

4872 

Br  2413 

5-3 

3  38-648 

62.1 

+    2.268O+.OOI2 

.000 

+  .0095       o 

.13      .51     .28 

4873 

t  Lyrae 

5-3 

3  43-98i 

82.5 

+    2.I4OO+.OOI2 

—  .001 

—  .0006       o 

.04        .28      .09 

4874 

v  Sagittarii 

3-o 

3  49-043 

74-9 

+  3-5699-  -0059 

—  .010 

—  .0004       o 

.04            .20         .08 

4875 

Br  2410 

5-5 

4    6.040 

64-3 

+  2.9382—  .0006 

-.003 

—    .OOIO         O 

.11        .36      .20 

4876 

Pi  8 

7-8 

4  23.331 

71.9 

+  2.0420+.  ooio 

—  .001 

+    .OOIO         O 

.16      .54     .26 

4877 

Pi  ii 

7.6 

4  49-76i 

84.7 

+  2.0333  +  .0010 

—  .001 

.0000       o 

.11       .52     .17 

4878 

Groomb  2777 

7-i 

6    0.007 

61.1 

+  1-5345-  -ooio 

—  .002 

+  .0003      o 

.15      .72     .38 

4879 

PiS 

7.8 

6  13.827 

65-5 

+  3.4126—  .0046 

-.008 

+  .0030       o 

•15      -58    .30 

4880 

Pi  4 

6.8 

6  29.559 

77.1 

+  3.5873-  .0065 

—  .010 

+    .0021          O 

.IO           .51         .20 

4881 

Pi  7 

6.0 

7    4-13° 

77-8 

+  3.6970-  .0079 

—  .012 

—  .0015       o 

.11        .50      .19 

4882 

L  7997  m 

5-6 

7    8.827 

87.8 

+  6.0626—  .0624 

-.130 

+  .0002       o 

.14       .84     .23 

4883 

Br  2415 

5-5 

7  15.261 

81.8 

+  3-255I-.°o32 

—  .006 

+  .0005       o 

.05       .27      .09 

4884 

Paris  25568 

5-7 

7  40.117 

91.4 

+  3.3556-  .0041 

-.007 

+  .0009       o 

.13        .66      .18 

4885 

Br  2422 

6.0 

7  55-870 

74.2 

+    2.2999+.OOI2 

.000 

—  .0009      o 

.08      .33    .14 

4886 
4887 

L  8040 
Br  2419 

•K 

8  I5.675 
8  40.140 

78.2 
65-5 

+   3.8119—  .0096 

+  3.0248-  .0015 

—  .014 

-.003 

+  .0019       o 
—  .0002      o 

-15        -88      .32 

.12            .36         .20 

4888 

L8o37 

5-5 

9    4.873 

80.4 

+  4.3758-  .0192 

-.031 

—  .0016      o 

.16     .87    .31 

4889 

L  8045 

7-7 

9  I4-854 

86.7 

+  3.9260—  .0114 

-.017 

+  .0026       o 

.13      .94    .26 

4890 

Br  2443 

6-5 

9  23-405 

75-8 

+  0.2326—  .0177 

-.008 

+  .0002—    I 

.08      .36     .15 

4891 

tfi  Sagittarii 

5-i 

9  24-567 

76.6 

+  3.6818—  .0079 

—  .012 

+  .0030      o 

.05       .24     .09 

4892 

Groomb  2789 

7-i 

9  29.605 

80.4 

+  1.  5523-.  0029 

—  .002 

—  .0178—10 

.09      .58     .19 

4893 

Dpt  2258 

6.8 

9  30.270 

73-7 

+   1.5504—  .0030 

—  .002 

—  .0196—  10 

.10        .57      .23 

4894 

Br  2433 

5-4 

9  47.100 

55-2 

+  1.  1369-  .0047 

—  .004 

+  .0047—   I 

.08        .27      .17 

4895 

L8oS3 

7.6 

9  51-093 

80.7 

+  3.8290—  .0101 

—  .014 

+  .0017       o 

.18     I.  II     .37 

4896 

LSoss 

7-7 

10    2.748 

82.2 

+   3.6894—  .0082 

—  .012 

—  .0002       o 

.13        .88      .28 

4897 

i)  Lyrae 

4-5 

10  21.250 

73-2 

+  2.O4I7  +  .OOIO 

.000 

.0000      o 

.07      .28     .13 

4898 

Pulk«  2723 

5-8 

10  46.705 

91.7 

+  2.  7335  +  .  oooi 

—  .001 

h  .0002       o 

.13      .63     .18 

4899 

Br  2425 

5-8 

10  58.836 

57-4 

+    2.  5853  +  .OO06 

.000 

h  .0030       o 

.14       .48      .29 

4900 

Pi  32 

7-9 

9  ii  18.488 

86.8 

+  3.5662—  .0068 

—  .010 

—  .0009       o 

.15            .69         .22 

4851  h  5084.     4^8-5^6  a"  142°,  binary,  200  yrs.  ±. 


4855  S  2450.    9^5  5"  301°;  BC:    close  double,  o'/2 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


197 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'andiooAji' 

Prob.  Errors. 
iEp.  loop'  Sio 

Remarks. 

4851 

0             /                 If 

-37  12  25-3° 

75-7 

//              n 

+  4.874+     .571 

n 
—  .11 

n 

-.286+    I 

//          tt       tt 

.10      .41     .17 

* 

4852 

-    4  ii  22.00 

82.2 

+  5.123+     .444 

-.06 

-  -037       ° 

.10      .45    .16 

Sh  37"  208° 

4853 

-    4  10  49.06 

66.1 

+  5-!34+     -444 

-.06 

—  .028       o 

.08     .25   .13 

15  Aquilae  h 

4854 

-89  15  16.63 

74-4 

+  5.157  +  14.445 

-.009+15 

.04      .26    .10 

4855 

+  52    6  56.16 

53-8 

+  5.145+     .196 

—  .02 

—  .024       o 

.11       .42     .26 

* 

4856 

-154839.75 

86.4 

+  5.172+     .482 

-.07 

-.013       o 

.14         .65      .21 

138  G  Sagittarii 

4857 

-27  48  59.99 

77.0 

+  4.987+     -525 

-.09 

—  .260—    I 

.07         .30      .12 

4858 

+  13  42  52-56 

68.9 

+  5.155+     .386 

-.04 

—  .102       o 

.02         .13      .06 

ft  287.    I2M  6"  57° 

4859 

-  5    i  57-55 

77.0 

+  5.178+     .446 

-.06 

—  .090      o 

.04         .22      .08 

4860 

+  31  35  41-55 

93-4 

+  5.238+     .320 

-•03 

-.048+  I 

.13         .77      .18 

4861 

-2847  27.41 

75-2 

+  5.278+     .529 

-.09 

-.013       o 

.12         .48      .21 

140  G  Sagittarii 

4862 

-4039    5-99 

73-4 

+  5.271+     .586 

—  .12 

-  -°35       o 

.11         .44      .20 

4863 

+  76  54  29.66 

74.8 

+  5-30I-      .352 

-•24 

—  .069—     2 

.07         .36      .14 

4864 

+  1055    i-79 

55-6 

+  5-353+     -394 

-.04 

—  .027       o 

.14         .45      .28 

18  Aquilae  5^0  to  5*5 

4865 

—  19  26  49.09 

77-9 

+  5.391+     .493 

-.08 

.000      o 

.10         .58      .21 

144  G  Sagittarii 

4866 

+  24    S43-72 

69-3 

+  5.400+     .349 

-•°3 

+.003+  I 

.11         .58      .26 

4867 

+  28  28  15.82 

72-4 

+  5.481+     .333 

-•03 

+  .068+  I 

.10         .50      .21 

4868 

-38    336.66 

75-2 

+  5-309+     -572 

—  .12 

-.105+  I 

.09         .38      .l6 

4869 

+  53  H  34-75 

60.8 

+  5.435+     .187 

—  .02 

+  .021          0 

.06         .20      .12 

51  Draconis 

4870 

+  41  15  31.47 

63.2 

+  5.434+     .271 

—  .02 

—  .Oil          0 

.15         .60      .32 

4871 

-39  2957-79 

80.0 

+  5.418+     .578 

—  .12 

-  .036       o 

.11         .49      .l8 

4872 

+  32  2037.82 

61.0 

+  5-509+     -31? 

--03 

+  .013+     I 

.10         .40      .22 

17  Lyrae  * 

4873 

+  35  56  35-43 

78-3 

+  5-497+     -298 

—  .02 

—  .006      o 

.05         .29      .IO 

4874 

-2i  10  57.67 

72.1 

+  5.470+     .498 

-.08 

—  .040      o 

•05      -23    .10 

4875 

+  5  5457-17 

62.5 

+  5.460+     .409 

-•05 

-  .074       o 

.IO         .36      .20 

4876 

+  3846  10.81 

54-8 

+  5.565+     .284 

—  .02 

+  .007       o 

.14         .45      .28 

S  2469.   9M  i'/3  122° 

4877 

+  38  59  43-21 

83-3 

+  5.602+     .282 

—  .02 

+  .007      o 

.10      .44    .15 

4878 

+  50  12      8.21 

56.6 

+  5.698+       .212 

—  .02 

+  .004      o 

•13      -54    -32 

4879 

-  14  45    0.07 

71.2 

+  5.727+       .475 

-.07 

+  .014      o 

•  14      -54    -25 

4880 

—  21  49  26.70 

80.4 

+  5.722+       .499 

-.09 

-.013      o 

.12         .57      .21 

151  G  Sagittarii 

4881 

—  26    4  27.87 

79-2 

+  5-777+     -513 

—  .10 

—  .006       o 

.11         .52      .19 

152  G  Sagittarii 

4882 

—  66  49  59.96 

88.4 

+  5.792+     .844 

-.35 

+  .002       o 

.12         .79      .21 

60  G  Pavonis  * 

4883 

-  8    6  24.53 

78.1 

+  5-783+     -452 

-.07 

—  .016      o 

.05      .25    .10 

20  Aquilae          • 

4884 

—  12  27      1.62 

87.0 

+  5.800+     .466 

-.07 

-  -033       o 

.13         .61      .19 

153  G  Sagittarii 

4885 

+  31      658.82 

77-6 

+  5.848+     .318 

-•03 

—  .007       o 

•07      -35    -13 

19  Lyrae 

4886 

-3°    °    7-43 

78.6 

+  5.862+     .529 

—  .10 

—  .021       o 

•i4      -95    -33 

154  G  Sagittarii 

4887 

+   27  24.39 

65.0 

+  5.911+     .419 

-.06 

—  .006      o 

.10      .35    .19 

4P  Aquilae 

4888 

-45  38  24.85 

80.0 

+  5.949+     .606 

-•15 

—  .003       o 

.13      .79    .27 

5  1  G  Telescopii 

4889 

-33  42  12.76 

85.6 

+  5-97°+     .544 

—  .11 

+  .005       o 

.16    1.47    .39 

4890 

+  65  48  40.25 

72-3 

+  6.006+     .030 

-.04 

+  .029      o 

.06      .31    .13 

55  Draconis 

4891 

-  25  25  44.93 

76.8 

+  5.944+     .510 

—  .10 

-  -035       o 

.06      .25    .10 

4892 

+  49  40    0.8  1 

77.0 

+  6.592+       .211 

—  .02 

+  .606-     2 

.08      .47    .18 

}s  2486.    9"  218° 

4893 

+  4940    8.67 

67.0 

+  6.613+       .210 

—  .02 

+  .626—   3 

.09         .43      .20 

4894 

+  56*41  19.12 

48.4 

+  6.050+       .156 

—  .02 

+  .040+  I 

.07     .25   .17 

53  Draconis 

4895 

-3038    3-°7 

75-8 

+  6.002+     .530 

—  .IO 

—  .014      o 

.16   1.13   .42 

158  G  Sagittarii 

4896 

-25  5025.77 

78.7 

+  6.0I6+       .510 

—  .IO 

—  .016      o 

•13      -95    -32 

4897 

+  38  58  25.35 

64.7 

+  6.055+       -Z8l 

-•°3 

-  .003      o 

.06         .22      .12 

S  2487.    8M  28"  83° 

4898 

+  14  54  33.48 

84.7 

+  6.073+     -377 

-•°5 

—  .020      o 

.11         .48      .l6 

OSApp.  7"?5  90"  268° 

4899 

+  21    3  25.80 

57-i 

+  6.121+     .357 

-.04 

+  .011         O 

.12         .51      .30 

i  Sagittae 

4900 

-2i  I456.91 

78.7 

+  6.120+     .492 

-.09 

—  .017       o 

.14         .49      .21 

4872  S  2461.      IOM  4"  312° 


4882  Gale.    s?8-7?S  o'.'S  4°°- 


198 


PRELIMINARY   GENERAL  CATALOGUE   OF   STARS   FOR    1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

Hand  ioo  A  (i 

Prob.  Errors. 
a  Ep.      loop,     aio 

M 

h    m          s 

9                     S 

s 

5 

//           ,/ 

4901 

R  33 

7-3 

19  II   18.976 

73-8 

+  3-3327-  -°°42 

-.005 

+  .0096       o 

.16          .70       .30 

4902 

Br  2424 

5-6 

II  34.062 

71.7 

+  2.9693—  .0012 

—  .003 

+  .0006      o 

.11          .38        .18 

4903 

Br  2423 

S-o 

II  47.081 

77-4 

+  3.5125-.  0062 

—  .009 

—  .0009       o 

.04            .21          .08 

4904 

L  8050 

7.0 

ii  49-963 

96.1 

+  4.6870—  .0264 

-•043 

+  .0018+  I 

.16      1.18      .23 

4905 

Dpt  2262 

5-7 

ii  52.042 

85-5 

+  2.7475     .0000 

—  .OOI 

+  .0008      o 

.10        .52      .16 

4906 

Br  2428 

4.8 

ii  55.109 

75-8 

+2.5789+.  0007 

.OOO 

.0000      o 

.09      .36    .15 

4907 

Br  2444 

5-3 

12     8.071 

63-5 

+  1-0735-  -0052 

—  -OOS 

—  .OOl6+     2 

.10        .44      .23 

4908 

Pi  39 

7.2 

12  20.069 

65-9 

+  3.5101—  .0062 

—  .009 

—  .0008      o 

.15      .56    .29 

4909 

8  Draconis 

3-i 

12  32.OOI 

66.4 

+  0.0256—  .0235 

—  .009 

+  .0173-     2 

.03      .14     .07 

4910 

Groomb  2802 

6-5 

12  42.847 

87.4 

+  1.5651—  .001  1 

—  .OO2 

+  .0003      o 

.13      .44     .16 

49" 

Br  2466 

S-2 

12  50.361 

65.2 

—  2.1596—  .0897 

+  .O2O 

+  .OI32+I6 

.07        .26      .14 

4912 

flLyrae 

4-5 

12  53.804 

85.8 

+  2.0813+.  ooio 

.OOO 

—  .0009       o 

.04      .30     .09 

4913 

L8o67 

5-8 

13      2.396 

91.2 

+3-9752-.  0130 

—  .019 

-  .0059      o 

.20      1.88      .40 

4914 

<t>  Aquilae 

5-3 

13      7-352 

78-5 

+  2.8160—  .0004 

—  .OOI 

—  .OOOI          0 

.03            .21          .07 

4915 

Pi  50 

6-5 

13  17-993 

75-8 

+  3.4221—  .0050 

—  .OO7 

—  .OO7I+     2 

.09      .42    .17 

4916 

Br  2430 

5-4 

13  27.204 

64.0 

+3.0525-.  0019 

-.003 

+  .OOO2         0 

.12            .44         .23 

4917 

PulkH  2739 

5-6 

13  29.722 

89.2 

+  2-5373  +  -0008 

.OOO 

—  .0007       o 

.13      .56    .17 

4918 

L  8034 

6.8 

I3  39.690 

82.7 

+  6.2982—  .0779 

—  .146 

—  .0029       o 

.18      .75     .27 

4919 

Br  2431 

6.8 

13  43-975 

74-i 

+  3.0687—  .0020 

-.003 

—  .0002      o 

.11        .42      .19 

4920 

Groomb  2809 

6.2 

13  59.267 

73-6 

+  1.7215—  .0010 

—  .OOI 

—  .0007—   4 

.12            .48         .21 

4921 

Pi  61 

5-7 

14  38.584 

80.6 

+3-5967-  -0077 

—  .010 

—  .0024       o 

.11             .56         .20 

4922 

17  Telescopii 

5-2 

14  47.040 

86.2 

+  4.8562  -.03  1  7 

-.048 

+  .0019+   i 

.18            .84         .27 

4923 

K  Cygni 

3-9 

I447-523 

74-4 

+  1.3882—  .0030 

-.003 

+  .OO7I—     2 

.03            .16         .07 

4924 

Br  2441 

5-6 

I459-37I 

73-8 

+  2.7989—  .0003 

—  .OOI 

—  .OOOI         O 

.IO            .40         .l8 

4925 

Br  2442 

6.2 

15  10.885 

77-5 

+  2.8206—  .0004 

—  .OOI 

+  .OO22         O 

.10        .39      .16 

4926 

Br  2435 

5-2 

15  12.595 

83-4 

+3.2034—  .0032 

—  .004 

+  .0069       o 

.07      .40     .13 

4927 

L  8081 

7-4 

15  19-258 

80.0 

+  3.8064—  .0106 

-.013 

+  .0099       o 

.15      i.oo      .34 

4928 

Br  2439 

5-7 

15  26.098 

73-2 

+  3.0962—  .0023 

-.003 

+  .OOOI         0 

.12            .45          .20 

4929 

/81  Sagittarii 

4.0 

15  26.998 

74.6 

+  4.3214-  .0199 

-.028 

—  .OOOI          O 

.11            .50        .21 

4930 

Groomb  2812 

7-i 

15  37-465 

64.7 

+  2.  OO45  +  .OOO8 

.000 

-  .0003       o 

.12            .63         .31 

493i 

Pi  67 

7-4 

IS  45-558 

70.6 

+  3.5182-.  0067 

—  .009 

+  .0002      o 

.13         .51       .24 

4932 

p  Sagittarii 

4.1 

15  52-419 

66.6 

+  3.4822—  .0063 

-.008 

—  .0017       o 

.06           .27         .13 

4933 

ft2  Sagittarii 

4-3 

i5  59-7I7 

83-7 

+4-3457-  -0203 

-.028 

+  .OIO2          0 

.13            .72         .23 

4934 

v  Sagittarii 

4-7 

16    0.034 

77-9 

+  3-4379-  -ooS8 

—  .007 

—  .0002      o 

.07             .33         .12 

4935 

Br  2436 

6.2 

16    0.916 

65-4 

+  3.5016-  .0064 

-.008 

+  .0066       o 

•°9        -33      -17 

4936 

o  Sagittarii 

4-1 

16  57-551 

83.8 

+  4.1644—  .0169 

-.023 

+  .002^+   I 

.09      .56    .17 

4937 

PulkM  2748 

k6.i 

17  13.008 

86.5 

+  3.0850—  .0022 

-.003 

+  .0029      o 

.09      .52    .15 

4938 

L  8090 

7-3 

17  14.617 

88.3 

+  3.9629-  .0135 

-.017 

+  .OO22          O 

.12            .78         .21 

4939 

Groomb  2822 

6.6 

17  23-973 

71.6 

+  1.3274-  .0033 

-.003 

+  .0028+     I 

•13        -57      -25 

4940 

r  Draconis 

4-7 

17  28.704 

72.4 

—  1.1276—  .0588 

-.008 

—  .0318—  12 

.03        .18      .08 

4941 

Pi  84 

6.0 

18  16.167 

79.0 

+  3.7432—  .0102 

—  .012 

—  .0004       o 

.11            .52         .20 

4942 

Br  2450 

5-2 

18  45.132 

78.6 

+  2.  4565  +  .  OOIO 

.000 

—  .OOO2          0 

.10        .48      .18 

4943 

Br  2445 

5-1 

19  "-433 

73-4 

+  3.6546-  .0088 

—  .on 

+  .0038       o 

.08           .32         .14 

4944 

Br  2446 

5-6 

19  26.542 

77-2 

+3.6346-  .0087 

—  .Oil 

—  .0015       o 

.09           .38         .16 

4945 

Bruss  8113 

5-9 

19  42.629 

95-i 

+3.3926—  .0056 

—  .007 

+  .0048       o 

•!3        -93      -19 

4946 

L  8091 

5-7 

19  46.184 

90.2 

+4.8295-.  0337 

—  .046 

-  -0057       o 

.15         I.O2         .25 

4947 

Br  2453 

6.2 

19  52.621 

70.2 

+  2.6938  +  .ooo2 

—  .001 

—  .0007       o 

.11            .46        .21 

4948 

IT  Draconis 

4.6 

20    9.408 

63.0 

+0.3176-  .0193 

—  .010 

+  .0031—   I 

.05           .26        .13 

4949 

Br  2456 

S-o 

20  10.967 

81.4 

+  2.  3649+.  ooi  i 

.000 

+  .0007       o 

.10        .34      .14 

4950 

Br  2452 

5-4 

19  20  12.117 

75-7 

+  2.8611—  .0012 

—  .OOI 

+  .0494-   4 

.06            .24         .IO 

4901/3140.     IIM  37"  326°;  BC:   11*2  7"  210°. 
4916  2  2492.     IOM  3"  10°. 


4908  W.H.     9M4o"iS9°. 
4924  W.H.    8M6o"i7s°. 


CATALOGUE  OF  6 1 88  STARS  FOR  1 900 


199 


No. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3* 

H'and  ioo  A(i' 

Prob.  Errors. 
S  Ep.  100  p.'  S  10 

Remarks. 

4901 

o        /           tr 

—  ii    8  56.01 

75-9 

rt                 // 

+  6.i52  +  .46i 

-.07 

n 

+  .014+    I 

ft      it         it 

.14      .59    .24 

* 

4902 

+  43929-71 

73-3 

+  6.  145  +  .409 

-.06 

—  .014      o 

.10      .34    .16 

22  Aquilae 

4903 

—  19    7  51.62 

74-1 

+  6.  1  58  +  .484 

-.09 

—  .019       o 

.04         .22      .09 

43  Sagittarii  d 

4904 

-51  45    7-6° 

92.8 

+  6.  1  34  +.648 

-.19 

-  .047       o 

.13         .80      .19 

54  G  Telescopii 

4905 

+  14  22      2.8o 

77-3 

+  6.i97  +  .378 

-•05 

+  .013       o 

•°9      -37    -i5 

22489.    ioM8"347° 

4906 

+  21   12  49.14 

72.6 

+  6.i84+.355 

-.04 

—  .004      o 

.07      .32    .14 

i  Vulpeculas 

4907 

+57  3i  S6-66 

58.8 

+  6.131  +  .  146 

—  .02 

-  -°75      o 

.08      .29    .17 

54  Draconis 

4908 

-19   235.21 

70.4 

+  6.  203  +  .484 

-.09 

—  .020      o 

.14      .49    .24 

161  G  Sagittarii  * 

4909 

+  67  29    8.27 

67.0 

+  6.328  +  .  003 

-•05 

+  .089+     2 

.03         .12      .06 

4910 

+  49  53  38-65 

75-5 

+  6.  240+.  214 

—  .02 

—  .014      o 

.11         .32      .16 

S  2496.  nM2"79° 

4911 

+  76  23  38.16 

68.2 

+  6.138-.  300 

-.24 

-.127+     2 

.08        .24     .13 

59  Draconis 

4912 

+37  57  19-54 

80.  i 

+  6.266  +  .  284 

-•03 

-  .003       o 

.05      .28    .10 

4913 

-35  36  12.02 

81.8 

+  6.265  +  .547 

—  .12 

—  .Ol6—     I 

.20      2.40      .71 

162  G  Sagittarii 

4914 

+  "  2453.56 

77-6 

+  6.299+.  387 

-•°5 

+  .011          0 

.03         .22      .08 

4915 

-1542  37.78 

73-8 

+  6.037  +  .470 

-.08 

-.266-  I 

.08         .40      .17 

163  G  Sagittarii 

4916 

+  054  11.73 

65-9 

+  6.331  +  .420 

-.06 

+  .015       o 

.09         .30      .l6 

23  Aquilae  * 

4917 

+  22  50  42.86 

83-9 

+  6.310+.  348 

-.04 

—  .009      o 

.12         .47      .I? 

2  Vulpeculae 

4918 

-683331.89 

80.2 

+  6.337  +  .868 

-.41 

+  .004      o 

.14         .6l      .23 

62  G  Pavonis 

4919 

+    09  24.OO 

75-5 

+  6.348  +  .  422 

-.06 

+  .009      o 

.10      .34    .15 

24  Aquilae 

4920 

+  46  48  39.18 

66.4 

+  6.645  +  .235 

—  .02 

+  .285      o 

.IO         .40      .20 

4921 

-2235   18.57 

79-4 

+  6.452  +  .494 

—  .IO 

+  .038      o 

.11         .51      .19 

165  G  Sagittarii 

4922 

-543634.02 

83-2 

+  6.353  +  .668 

—  .22 

-.073       o 

-IS         -65      -23 

4923 

+  53  ii    1.69 

70.6 

+  6.544+.  190 

—  .02 

+.117+  I 

.03         .15      .07 

4924 

+  12  ii  23.35 

69.7 

+  6.461  +  .384 

-•05 

+  .018       o 

.08         .29      .14 

28  Aquilae  A  * 

4925 

+  11  20  57.98 

74-3 

+  6.480+.  387 

-•05 

+  .021          0 

.10      .38    .17 

29  Aquilae 

4926 

-  5  36  10.17 

80.5 

+  6.  500  +.440 

-.07 

+  •039+  I 

.06        .33      .12 

26  Aquilae/ 

4927 

-2947  31.85 

75-4 

+  6.468  +  .  524 

—  .11 

—  .002  +    I 

•15      -99    -37 

170  G  Sagittarii 

4928 

-   i    441.94 

68.3 

+  6.479+-424 

-.07 

—  .001          0 

.10      .33    .17 

27  Aquilae  d 

4929 

-443848.18 

71.6 

+  6.462  +  .594 

-•17 

—  .019      o 

.09      .39    .17 

Dunlop.    7""  28"  77° 

4930 

+  40  10  32.91 

67.4 

+   6.505  +  .274 

-•°3 

+  .009      o 

.13      .52    .26 

4931 

-19  25  17.54 

74-8 

+  6.512  +  .  482 

—  .IO 

+  .005       o 

.12         .51      .22 

173  G  Sagittarii 

4932 

-18    2    8.04 

71-5 

+  6.s36+.477 

—  .IO 

+  .020      o 

.06         .31      .13 

4933 

-44  59  16.42 

74-9 

+  6.463  +  .598 

-.16 

-.063+  I 

.IO         .42      .l8 

4934 

-  16    8  34.07 

74.0 

+  6.523  +  .47I 

-.09 

—  .004      o 

.07         .34      .14 

4935 

-18  2937.94 

69.8 

+  6.435  +  .481 

—  .IO 

-•093+  I 

.09         .36      .I? 

45  Sagittarii  p  * 

4936 

—  40  48  14.87 

80.8 

+  6.48o+.57i 

-.14 

—  .126      o 

.09         .51      .I? 

4937 

—   o  26  30.20 

86.1 

+  6.6oi  +  -422 

-.07 

—  .026      o 

.08         .49      .14 

Br  3250 

4938 

-35    930-97 

83.6 

+  6.6i9+.S43 

-•13 

—  .010      o 

•15      -75    -25 

4939 

+  54  ii  23-13 

66.4 

+  6.614+.  180 

—  .02 

—  .028       o 

.11      .47    .23 

4940 

+  73  10  11.64 

74-9 

+  6.759-.  162 

-•1J 

+  .110—   4 

.04        .21      .08 

4941 

-28    333.20 

79.2 

+  6.712  +  .  511 

—  .12 

—  .002       o 

.12        .57      .21 

179  G  Sagittarii 

4942 

+  26    4  13.00 

75-6 

+  6.739+.  334 

-.04 

-.015       o 

.08        .36     .15 

3  Vulpeculae 

4943 

-2442    9.93 

74.2 

+  6.7  28  +  .499 

—  .11 

—  .062       o 

.08        .30     .14 

47  Sagittarii  x  l 

4944 

-  24    9  29.65 

79.2 

+  6.8io+.495 

—  .11 

.000      o 

.09        .39     .15 

49  Sagittarii  \3 

4945 

-14    542-84 

93-7 

+  6.883  +  .463 

-.09 

+  .050+  I 

.13         .95      .20 

4946 

-5431  28.63 

86.4 

+  6.853  +  .658 

-•23 

+.015-  I 

.12        .69     .20 

59  G  Telescopii  * 

4947 

+  16  4433-7° 

61.2 

+  6.830+.  366 

-•OS 

—  .016      o 

.11         .40      .22 

2  Sagittae 

4948 

+  65  31  18.94 

61.3 

+  6.910+.  041 

-•°5 

+  .041       o 

.05         .l8      .IO 

4949 

+  29  25  32.18 

75-i 

+  6.882  +  .321 

-•°3 

+  .OIO         0 

.10      .30    .14 

2  Cygni 

4950 

+  11  43  48.72 

72.9 

+  7-503  +  -395 

-.06 

+  .630+  7 

.05         .22      .IO 

31  Aquilae  b 

4946  h  S"4.     i°M  i"  ±,  binary?    Last  seen  double  in  1860. 


2OO 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag 

R.  A.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3dt 

|i  and  100  A  p. 

Prob.  Errors. 
aEp.      ioo|i     a  10 

M 

h    m         s 

8                      8 

s 

s 

It                  n              n 

4951 

Br  2454 

7-i 

19  20  15.672 

70.8 

+     2.6961+      .OOO 

—  .001 

+  .0018       o 

.12            .50         .23 

4952 

Br  2448 

5-7 

2O  21.319 

77-2 

+     3.5806-      .008 

—  .010 

+  .0018       o 

.11             .40         .17 

4953 

8  Aquilae 

3-4 

20  27.395 

70.4 

+  3-0253-    -001 

-.003 

+  .0169       o 

.02            .14         .06 

4954 

Pi  107 

5-8 

20  29.715 

72.0 

+  3.4161-   .005 

—  .007 

+  .0016      o 

•13            -56         -25 

4955 

Pi  102 

5-8 

20  37-345 

80.9 

+  3-7959-    -on 

-.013 

+  .0009      o 

.11             .51         .l8 

4956 

Pi  no 

6.8 

20  44-255 

68.3 

+  3.4045-    .0058 

-.007 

+  .0019       o 

.15            .57         .28 

4957 

Pi  131 

6.7 

20  46.453 

78.9 

+  1.5732-    .001 

—  .002 

—  .0003       o 

.11             .50         .19 

4958 

Groomb  2832 

6.1 

20  46.906 

65.3 

+  1.8970+   .000 

—  .001 

+  .OO22          0 

.14            .58         .30 

4959 

L  8078 

6-3 

20  46.941 

85.6 

+  6.2800-   .0850 

-.138 

+  .0009       o 

.15            .78         .24 

4960 

Br  2458 

5-4 

21      5.283 

65.6 

+  2.6313+   .0005 

.000 

+  .0054+     I 

.12            .45         .23 

4961 

Br  2459 

6.4 

21    17458 

67.0 

+  2.4813+   .0017 

.000 

-.0137+   4 

.08            .32         .l6 

4962 

v  Aquilas 

4-9 

21   24.217 

80.9 

+  3.0686—    .0024 

-.003 

—  .0007       o 

.10        .39      .15 

4963 

Pulkjs  2765 

6.0 

21   45-270 

89.6 

+   2.7876—    .ooo< 

—  .001 

JJ^QQQ^       0 

-ii        .68      .18 

4964 

Paris  26114 

7-6 

21  51.074 

80.7 

+  3-4915-   -007° 

-.008 

—  .OOIO          O 

.12            .90         .29 

4965 

Br  2461 

5-8 

21   51.246 

66.5 

+  2.6186+   .0005 

.000 

—  .0005      o 

.l6            .46         .26 

4966 

Pi  140 

7-4 

21  55-398 

73-o 

+   1.5770—    .0014 

—  .002 

—  .OOIO         0 

•15         -54       -25 

4967 

Br  2462 

6-3 

22      6.179 

82.2 

+  2.6232+   .0005 

.000 

—  .0012          0 

.12            .36         .15 

4968 

Capes,  3838 

7-3 

22   16.290 

76.8 

+  3-4938-    -0071 

-.008 

+  .0013       o 

.10            .57         .21 

4969 

L  8109 

5-9 

22  17.428 

92.8 

+  4.2760—    .0204 

-.025 

+  .OIO2+     I 

.15         2.00         .38 

4970 

L  8101 

6.7 

22  27.916 

82.3 

+  4.8842—   .0362 

-.047 

+  .0044       o 

.13            .72         .24 

497i 

A.  Ursae  Min 

6.8 

22  29.27- 

70.8 

-67.822—26.888- 

-.103-—  421 

.03            .15         .06 

4972 

Br  2464 

5-2 

22  33-049 

66.9 

+  2.1603+   -ooio 

.000 

+  .0005      o 

.10        .54      .25 

4973 

Pi  126 

5-6 

23  41.062 

75-2 

+  3.7146—   .0104 

—  .012 

+  .OOIO         0 

.09            .46         .19 

4974 

Br  2463 

6.0 

23  57-6I3 

62.3 

+    3.0336-     .0021 

-.003 

—  .0007      o 

.11            .39         .22 

4975 

Pi  156 

6.9 

23  58.212 

74-4 

+    1.0874—     .0064 

-.005 

—  .0016      o 

•15        -54      -24 

4976 

a  Vulpeculae 

4.6 

24  32.653 

72.3 

+  2.4959+   .0010 

.000 

-.0093+  I 

.04            .22         .10 

4977 

PulkM  2775 

5-9 

24  46.506 

87.8 

+    2.7551-     .0002 

—  .001 

+  .0025       o 

.11            .60         .l8 

4978 

Br  2470 

6.1 

24  46.649 

64.0 

+    2.5022+     .O008 

.000 

—  .0008       o 

.10            .38         .20 

4979 

Pi  138 

6.2 

24  57-932 

76-9 

+    3.5640—     .0084 

—  .009 

+  .0005       o 

.11            .45         .18 

4980 

Br  2476 

5-9 

24  59.041 

66.9 

+     1.4686—     .002^] 

-.003 

—  .0027       o 

.10        .38      .19 

4981 

Br  2469 

6.8 

24  59.062 

60.7 

+    2.6163+     -O005 

.000 

—  .0009      o 

.l6            .52         .31 

4982 

L  8115 

6.0 

25     0.199 

85.0 

+    4-7S32-     -0337 

—  .042 

+  .0039       o 

.16            .75         .25 

4983 

Br  2465 

5-3 

25  26.035 

80.4 

+    3.1381—     .0031 

—  .004 

+  .0006       o 

.07             .32         .12 

4984 

L  8129 

6.0 

26     9.173 

82.4 

+  4-3343-    -0233 

-.027 

—  .0023       o 

.18            .96         .32 

4985 

L8i39 

7-4 

26  26.382 

75-o 

+  3-7435-    -0102 

—  .on 

+  .0046+   6 

.09            .52         .21 

4986 

,8  'Cygni 

3-o 

26  41.308 

76-4 

h    2.4187+    .OOIO 

.000 

—  .0002       o 

.03            .l6         .06 

4987 

ft2  Cygni 

5-6 

26  43-447 

75-2 

'-  2.4180+   .0010 

.000 

—  .0008       o 

.06            .28         .12 

4988 

i  Cygni 

3-9 

27  11.090 

74-6 

-  1.5135-   .0026 

—  .002 

+  .OO2I—     2 

.04            .l6         .07 

4989 

L8i38 

6.0 

27  17.068 

89.2 

-  4.1222—   .0189 

—  .020 

—  .0004       o 

.l6         1.64         .38 

4990 

Groomb  2900 

6-3 

27  44-997 

83-4 

-  3-5444-   -1957 

+  .023 

+  .0091+  8 

•°5            -56         -15 

4991 

t  Telescopii 

S-o 

27  47-912 

87.0 

-  4.4619—   .0270 

-.030 

-.0025+  I 

.14         I.O4         .28 

4992 

Br  2480 

4.8 

28    3-3I7 

73-2 

-  2.2288+   .0011 

.000 

—  .0002          0 

.11            .51          .22 

4993 

Pi  iS9 

7.0 

2831.787 

81.5 

-  3.6258—   .0097 

—  .010 

+  .0003       o 

.12            .57         .20 

4994 

Groomb  2865 

5-7 

28  40.492 

71.2 

-  i-5895—   -OOI7 

—  .002 

—  .0030—    I 

.13        .68      .29 

4995 

p.  Aquilae 

4.8 

29  12.264 

70.2 

-  2.9312—    .0012 

—  .001 

+  .0143+  I 

.05            .32         .14 

4996 

Br  2477 

5-4 

29  36.664 

68.1 

+  3-3078-   -0053 

-.005 

+  .0002       o 

.11            .44         .21 

4997 

Br  2475 

5-8 

29  57.421  . 

7i-5 

+    3-6475-     -0102 

—  .010 

+  .OOIO         O 

.IO            .42         .19 

4998 

Br  2483 

5-i 

3°  n-375 

67.9 

-    2.6342+     .OOO3 

.000 

+  .0003      o 

.12            .46         .23 

4999 

Br  2478 

4.6 

3037-376  • 

74-i 

-    3-655S-     -0104 

—  .010 

+  .0053       o 

.04            .24         .09 

5000 

Br  2487 

5-6 

9  3°  52-534 

60.4 

+  2-3835+   -ooio 

+  .OOI 

+  .0013       o 

.12            .57          .31 

4960  h  2871.     IOM  25"  106°,  relative  motion. 


4973  W.  H.     9M  8"  141 c 


CATALOGUE   OF   6 1 88   STARS   FOR    1 900 


201 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

p.'  and  100  AH' 

Prob.  Errors. 
SEp.  loop.'  Sio 

Remarks. 

4951 

o        /           // 

+  16  45  39.76 

65.2 

//                 n 

+6.856+  .366 

// 

-•°5 

// 

—  .022          O 

//             n            ft 

.IO         .42      .21 

3  Sagittae 

4952 

—  21   58  28.79 

77-2 

+6.887+  -487 

—  .10 

+  .OOI          O 

.11         .41      .I? 

50  Sagittarii 

4953 

+   2  54  54.69 

69.6 

+  6.971+  .414 

-.06 

+  .077+     2 

.02         .13      .06 

4954 

-IS  i5    5-5° 

74.0 

+6.895+  -465 

-.09 

—  .002         O 

.11         .49      .21 

187  G  Sagittarii 

4955 

-295627.74 

80.0 

+  6.853+  .517 

—  .12 

-  -055      o 

.10      .45    .17 

186  G  Sagittarii 

4956 

-  14  44  58.90 

67-5 

+6.905+  .463 

-.09 

—  .012         O 

.13         .47      .24 

188  G  Sagittarii 

4957 

+  50    431-?6 

74-2 

+  6.930+     .212 

—  .02 

+  .OIO         O 

.10      .39    .17 

4958 

+  43  n  34.58 

61.1 

+  6.882+     .257 

—  .02 

-  .039       o 

.12         .50      .27 

4959 

-6838  15.27 

84.2 

+  6.911+     .856 

-•44 

—  .010      o 

.12         .67      .21 

65  G  Pavonis 

4960 

+  1936    8.18 

63.2 

+  6.873+     -358 

-.04 

-.073+  I 

.11         .46      .24 

4  Vulpeculae  * 

4961 

+  24  43  5S-58 

66.0 

+  6.331+     .334 

-.04 

-.631-     2 

.07         .30      .15 

OS  1  1"  31"  77°,  rel.  mot. 

4962 

+   08  20.79 

78.0 

+  6.977+   -4J6 

-.07 

+  .005       o 

.08         .34      .14 

4963 

+  12  49  20.36 

87-5 

+  7.066+   .378 

-•°5 

+  .066      o 

.11         .59      .17 

4964 

-i833    5-27 

77-4 

+  6.990+   .474 

—  .10 

—  .018      o 

.11         -75      .27 

4965 

+  1953  56-51 

67.8 

+  6.970+   .354 

-.04 

-  -039      o 

.14         .51      .26 

5  Vulpecuke 

4966 

+  50    238.66 

65.8 

+  7.OOI+     .212 

—  .02 

-.013       o 

.12         .45      .23 

4967 

+  19  41  32.86 

74.1 

+  6-975+   -355 

-.04 

-  .054      o 

.10      .33    .16 

S  2521.     IOM  25"  38°,  slow. 

4968 

-18  33  41.23 

77-2 

+  7.035+  .474 

—  .10 

—  .008       o 

.10      .63    .23 

190  G  Sagittarii 

4969 

-43  38  44.92 

91.4. 

+  6.903+   .582 

-.16 

—  .141+  I 

.12      1.50      .30 

189  G  Sagittarii 

4970 

-55  18  53.76 

79.1 

+  7.050+   .664 

-•23 

—  .009+   I 

.11         .54      .20 

61  G  Telescopii  (^) 

4971 

+  88  59  15.82 

72-5 

+  7.071  —  9.272 

+  .OII—  14 

.02         .14      .06 

Br  2795 

4972 

+  36    7    1.60 

60.4 

+  7.072+   .292 

-•°3 

+  .006      o 

.10      .47    .25 

4Cygm 

4973 

—  27  ii  25.46 

76.9 

+  7.110+   .503 

—  .11 

—  .048      o 

.09         .41      ,l6 

193  G  Sagittarii  * 

4974 

+    i  44  45.79 

71.6 

+  7.145+   .410 

-.07 

-  .036      o 

.09         .35      .16 

35  Aquilae  c 

4975 

+  574931.58 

67.! 

+  7.179+  .145 

—  .02 

—  .003      o 

.13         .46      .24 

4976 

+  24  27  43.99 

7i-5 

+  7-II5+   -335 

-.04 

-•113-  I 

.04         .21      .09 

Br  2467.   6  Vulpeculae 

4977 

+  14  23  24.18 

83-5 

+  7.214+  .372 

-•°5 

-  -033      o 

.11         .49      -17 

4978 

+  24  33  43-48 

68.4 

+  7.243+  .337 

-.04 

-.005      o 

.10      .56    .25 

8  Vulpeculae 

4979 

-21   31    12.34 

78-9 

+  7.248+  .481 

—  .11 

—  .015       o 

.12         .49      .19 

197  G  Sagittarii 

4980 

+  52      659.52 

61-5 

+  7.232+   .196 

—  .02 

-.032      o 

.08         .33      .18 

7Cygni  (t1) 

4981 

+  20      424-39 

58.6 

+  7-245+   -352 

-.04 

—  .019      o 

•15         -51      -3° 

7  Vulpeculae 

4982 

-  53  23  46.49 

81.4 

+  7.246+   .643 

-•23 

—  .020      o 

.13         .58      .21 

62  G  Telescopii 

4983 

—   2  59  50.62 

76.1 

+  7.288+   .423 

-.O? 

-.013      o 

•°7      -33    -13 

36  Aquilae  e 

4984 

-45  29    °-79 

80.3 

+  7.327+   .584 

-.18 

-  -033      o 

.14     .80   .28 

63  G  Telescopii 

4985 

—  28   12  4O.IO 

73-o 

+  6.644+  -5°5 

-•13 

-•739+  * 

.10      .65    .26 

4986 
4987 

+  27  44  58.03 
+  2745  17-88 

74.0 
75-8 

+  7-394+   -324 
+  7-398+  .324 

-.04 
-.04 

—  .009      o 
—  .008     -o 

.04         .20      .08 

.08     .45  .17 

J2APP.  35"  55° 

4988 

+.51  3059.54 

71.1 

+  7-567+     -202 

—  .02 

+  .124      o 

.04    .15   .07 

Br  248i(i2Cygni) 

4989 

—  40  14  58.02 

89.1 

+  7.440+     .554 

-.16 

—  .012       o 

•15    i-53    -35 

201  G  Sagittarii 

4990 

+  79  24    8.79 

82.2 

+  7.452-     .481 

-.52 

-.037+  I 

.06      .45    .14 

4991 

-48  18  52.81 

84-3 

+  7-455+  -600 

—  .20 

-  .038       o 

.12        .75      .23 

4992 

+  34  14  24-43 

70-3 

+  7.511+  .298 

-.°3 

—  .003       o 

.09    .38  .17 

SCygni 

4993 

-  24    4  30.84 

80.0 

+  7.SSI+  .486 

—  .12 

—  .002       o 

.12         .56      .21 

202  G  Sagittarii 

4994 

+  5°    5  3r-84 

67.1 

+  7.602+     .211 

—  .02 

+  .038      o 

.12         -55      .26 

4995 

+   79  59-40 

66.5 

+  7-455+   -394 

-.07 

—  .152+    2 

.06         .28      .14 

4996 

-104643.87 

68.8 

+  7.638+  .442 

-.09 

—  .002       o 

.09         .33      .16 

37  Aquilae  k 

4997 

-24  56  17.74 

75-i 

+  7.643+   -488 

—  .12 

-.025       o 

.IO         .40      .17 

51  Sagittarii  hl 

4998 

+  1933  17.29 

66.4 

+  7.685+   .352 

-•°5 

—  .002       o 

.10      .38    .19 

9  Vulpeculae 

4999 

-25  .615.75 

71.2 

+  7.697+  .489 

—  .12 

—  .025+  I 

.04      .23    .10 

52  Sagittarii  h2* 

5000 

+  29  I434-IO 

58.4 

+  7.760+  .318 

-.04 

+  .018      o 

-13      -67    -37 

9Cygni 

4999  0  654.     io«?s  3"  l64°- 


202 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    1900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H-  and  100  A  p 

Prob.  Errors, 
a  Ep.      100  n     aio 

M 

b    m         s 

a                s 

a 

8 

//                //            n 

5001 

Pi  1  80 

5-9 

1931   15.237 

70.6 

+    3.4843-.  0078 

-.008 

+  .0009       o 

.14           .56        .26 

5002 

Groomb  2877 

5-5 

31  25.616 

62.3 

+    1.  9558  +  .  OO06 

.OOO 

—  .OOOI          O 

•l6        -75      -39 

5003 

K  Aquilae 

5-i 

3I  30.720 

76.9 

+    3.2292—  .0045 

—  .004 

+  .0002          O 

.04        .24      .09 

5004 

i  Aquilae 

4-5 

31  32-893 

70.1 

+  3.I°45-.°°3I 

—  .OO2 

-  .0003      o 

.10        .32      .16 

5005 

Pi  211 

5-9 

31  44-446 

69-3 

+  1-5543-  •OOI4 

—  .002 

+  .0031+  3 

.10        .54      .24 

5006 

PuLka  2791 

5-7 

31  56.280 

93-° 

+  3.3828—  .0064 

—  .OO6 

—  .0082+    I 

.13        .70      .18 

5007 

Br  2491 

6.2 

32  12.679 

65.3 

+  2.I55I  +  .OOH 

.OOO 

+  .OOOI         O 

.12             .46         .24 

5008 

Br  2485 

5-6 

32  29.035 

71.8 

+  3-l839--°039 

-.003 

+  .0068      o 

.10        .42      .19 

5009 

<r  Draconis 

4.8 

32  33-29° 

63.6 

—  0.1074—  .0184 

—  .Ol6 

+  .1057+91 

.06            .24         .13 

5010 

e  Sagittae 

5-8 

32  45.800 

61.9 

+  2.7156—  .0001 

.OOO 

+  .OOIO         0 

.09            .32         .I? 

Sou 

Br  2496 

6.8 

33  I5-I42 

70.6 

+  1.6082—  .0017 

—  .OOI 

—  .0007       o 

.08            .32         .15 

5012 

Groomb  2893 

5-4 

33  32-°94 

64.6 

+  i.  8594  +.0004 

.OOO 

-.0086+  I 

.16            .70         .36 

5013 

Groomb  2899 

6.8 

33  42-641 

80.4 

+  0.6455-.  0155 

—  .OO9 

+  .O02O          0 

.08            .50         .17 

5014 

6  Cygni 

4-5 

33  45-57° 

76.6 

+  1.6087—  .0023 

—  .001 

—  .0029—    4 

.04            .l6         .07 

50IS 

Br  2486  m 

6.6 

33  48-936 

73-2 

+  3.6094—  .0101 

—  .009 

.0000       o 

.11             .40         .19 

5016 

Br  2488 

6-3 

34    6.500 

74-3 

+  3.6110—  .0102 

—  .009 

+  .0018       o 

.IO            .36         .l6 

5017 

R  Cygni 

Var. 

34    8.105 

64.6 

+  1.6125—  .0015 

—  .OOI 

—  .0009      o 

.l6            .80         .40 

5018 

<r  Aquilae 

5-2 

34  15-522 

55-i 

+  2.9614—  .0018 

—  .OOI 

—  .OOOI         O 

.11             .39         .24 

5019 

Br  2490 

5-5 

34  59-694 

76.0 

+  3-4398-  -0074 

—  .006 

+  .0046       o 

.06            .28         .12 

5020 

Groomb  2917 

7.0 

35  25-449 

74-6 

-  0.5792-.  0499 

—  .021 

—  .0231+     2 

.08            .58         .22 

5021 

^  Cygni 

4-9 

35  25-616 

70.0 

+  2.3687  +  .OOH 

+  .OOI 

—  .0002       o 

.11            .39         .19 

5022 

Br  2493 

5-8 

35  34-3°2 

62.0 

+  3.0919-  .0032 

—  .002 

+  .0014      o 

•13            -45         -25 

5023 

a  Sagittae 

4-5 

35  37-623 

57-6 

+  2.  6815  +  .000  1 

.000 

+  .OOI  I          O 

.10            .33         .20 

5024 

Br  2503 

5-4 

36  H-I77 

62.9 

+  1.9525  +  .0005 

.000 

+  .0019       o 

.IO            .36         .20 

5025 

L  8191 

7-7 

36  14.818 

92-3 

+  4.0183—  .0185 

-.017 

+  .0037      o 

.14            .99         .22 

5026 

Groomb  2907 

6.0 

36  26.315 

67-3 

+  1.3521-.  0049 

-.003 

+  .0052-   3 

.11             .48         .23 

5027 

)8  Sagittae 

4-5 

36  33.448 

73-5 

+  2.6939  +  .OOOI 

.000 

+  .OOOI          O 

.08            .28         .13 

5028 

Br  2494 

5-2 

36  47.968 

63-6 

+  3-4344-  -0076 

-.005 

+  .0042      o 

.06            .27          .14 

5029 

Br  2500 

6.6 

37  3!-36° 

80.4 

+  2.8139—  .0008 

—  .OOI 

—  .0006       o 

.12             .36         .l6 

5030 

L  8094 

6.7 

37  36-588 

77-9 

+  11.3154-  -539° 

-.875 

+  .0009—   3 

.07            .58         .20 

5031 

Groomb  2909 

5-2 

37  4S-°68 

80.8 

+   1.8524—  .0002 

.000 

+  .0091—    I 

.12             .39         .16 

5032 

Pi  230 

5-6 

37  Si-357 

74-3 

+  3.4247-.  0072 

-.005 

+  .0104+    I 

.10        .45       .19 

5033 

X  Aquilae  m 

5-5 

37  5I-7I5 

58.1 

+  2.8228-  .0008 

—  .OOI 

.0000      o 

.11             .36         .22 

5034 

L  8156 

5-6 

37  53.514 

89.4 

+  6.9902—  .1464 

-.171 

+  .OOI2—     2 

.15        .88      .24 

503S 

Groomb  2912 

6.4 

38  32.397 

74-5 

+    2.  0499  +.OO08 

.000 

—  .0025       o 

.14            .58         .25 

5036 

L  8208 

7-i 

39    4.398 

77-4 

+    3.8064—  .0145 

—  .012 

+  .0008      o 

.10           .52         .20 

5037 

Br  2512 

6.2 

39    9-429 

68.6 

+    1.5951-.  0015 

—  .OOI 

—  .0162+   I 

.06           .22         .11 

5038 

Br  2513 

6-3 

39  12.290 

55-5 

+    1.5980—  .0014 

—  .OOI 

—  .0138+     2 

.10        .39      .24 

5039 

Br  2508 

5-6 

39  33-431 

77-6 

+    2.4936  +.0009 

+  .OOI 

+  .0004      o 

.10        .40      .17 

5040 

L  8211 

5-7 

39  38.459 

81.0 

+    3.8337-  -0152 

—  .012 

—  .0005      o 

.09           .60        .20 

5041 

v  Telescopii 

5-5 

39  Si-334 

85-4 

+    4.9205-  .0454 

—  .042 

+  .OIO5+    2 

•14           -75         -23 

5042 

\l>  Aquilae 

6.4 

39  55-°65 

54-7 

+    2.7908—  .OOO6 

.000 

—  .0005       o 

.14           .36        .24 

5043 

Groomb  2925 

6.1 

40  24.816 

85-5 

+  2.ooi8  +  .ooo7 

.000 

+  .0014      o 

•13        -57      -19 

5044 

Br  2504 

S-i 

4°3i-775 

69.6 

+  3-5°33--°°9I 

-.007 

—  .0095+  I 

.06            .27         .12 

5045 

Br  2514 

5-i 

40  40.189 

84.2 

+    2.I629+.OOII 

+  .001 

+  .0057       o 

.06            .44         .13 

5046 

v  Aquilae 

6.1 

40  48.059 

66.9 

+  2.9195—  .0016 

—  .OOI 

+  .0036       o 

.l6            .56         .29 

5047 

y  Aquilae 

2.8 

4i  3°-34i 

67-5 

+  2.8523—  .0011 

—  .OOI 

+  .0009      o 

.02            .IO         .05 

5048 

8  Cygni 

2.8 

41  50.979 

74-4 

+  1.8755  +  .  oooi 

.000 

+  .0050      o 

.04            .20         .08 

5049 

Pi  278 

6.4 

42    7-595 

65.6 

+    2.2352  +  .OOI2 

+  .OOI 

.0000      o 

.18            .69         .36 

5050 

L  8207  m 

5-6 

1942  15.779 

91.0 

+  5.  1  167-  .0550 

-.048 

+  .0023      o 

.15            .98         .24 

5015  See.     7?i-7>?6  o'.'ij  332°. 


5050  Innes. 


o'.'6  89° 


CATALOGUE  OF  6 1 88  STARS  FOR  1900 


203 


Ho. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'  and  zoo  AH' 

Prob.  Errors. 
SEp.  loop'  Sio 

Remarks. 

5001 

o         /            rf 

—  18  27  11.99 

76.8 

//                      // 

+  7-747+   -465 

// 
—    .11 

a 
—  .026      o 

It                n            II 
•13           ^6       -23 

209  G  Sagittarii 

5002 

+  42  ii  36.24 

66.6 

+  7.766+   .260 

-    -°3 

—  .021      o 

.12        .46     .23 

5003 

-  7  14  59.66 

74-5 

+  7.792+  .430 

-    .08 

—  .002      o 

.05        .28     .11 

5004 

-   i  3°  3°-23 

74-2 

+  7-779+  -414 

-    .08 

—  .017      o 

.08        .29     .13 

5005 

+  51    i  18.46 

63.0 

+  7.609+   .206 

-    -°3 

-.203      o 

.10      .45    .23 

5006 

-U31  :7-43 

91.1 

+  7.693+  .450 

—    .10 

-•135-  I 

.14        .69     .19 

5007 

+  36  43  20.71 

62.9 

+  7.844+  .286 

-    -03 

—  .006      o 

.IO         .41      .22 

n  Cygni 

5008 

-   452  iS-i? 

73-° 

+  7.813+  .424 

-    .08 

-.059+  I 

.09         .36      .16 

42  Aquilae 

5009 

+  69  29  27.73 

62.8 

+  6.122—     .OO4 

-    .08 

-1.754+14 

.05         .22      .12 

Parallax  o'/24 

5010 

+  16  14  16.88 

60.8 

+  7.907+     .361 

-    .06 

+  .013       6 

.08         .33      .18 

5011 

+  50    050.97 

65-7 

+  7.966+    .212 

-    -03 

+  .032       o 

.08         .31      .l6 

5012 

+  44  28  23.64 

59-6 

+  7.845+    .244 

-    -°3 

—  .in—    i 

•14      -57    -32 

5013 

+  63    12  42.OI 

81.8 

+  7-977+  -083 

-    .04 

+  .007       o 

.09      .43    .15 

SOU 

+  495921.57 

67.1 

+  8.221+    .211 

-    -°3 

+  .247      o 

.04     .15    .07 

5015 

-23  39  18.38 

75-7 

+  7-949+    .479 

—     .12 

—  .030      o 

.11      .44    .19 

53  Sagittarii  * 

5016 

-23  39  28.10 

81.4 

+  7-999+  -479 

—     .12 

-.003       o 

.10     .42    .15 

218  G  Sagittarii 

SOI7 

+  49  58  28.81 

66.7 

+  7-993+  -212 

-     -03 

—  .on      o 

.14     .64    .31 

Groomb  2896.  5l"9  to  >  14" 

5018 

+  5  10  11.13 

61.0 

+  8.014+  -392 

-     .07 

.000      o 

.09      .34    .19 

5019 

—  16  31  21.52 

74-9 

+  8.019+  -456 

—      .10 

-.054+  I 

.07      .32    .13 

54  Sagittarii  e  1 

5020 

+  71   22   59.31 

74-9 

+  8.035-   •°84 

—      .11 

-•073-   3 

.08      .45    .18 

Kustner  9M  i"  267° 

5021 

+  29SS  2I-32 

67.1 

+8.143+  -312 

-      .04 

+  .035      o 

.08      .35    .17 

5022 

-  051  11.03 

66.4 

+  8.130+  .409 

-      .08 

+  .OIO         O 

.11         .40      .21 

45  Aquilae 

5023 

+  1747    1.16 

70.2 

+  8.092+  .354 

-      .06 

-  .032      o 

.06         .29      .13 

5024 

+  42  35  12.92 

59-6 

+  8.193+  -257 

~      -°3 

+  .024      o 

.08         .35      .20 

14  Cygni 

5025 

-37  4025.93 

92.1 

+8.146+  .532 

-      .16 

—  .027       o 

.15    1.06    .24 

5026 

+  54  44  21.62 

66.9 

+  8.359+  .177 

-      -03 

+.170+  I 

.09         .47      .22 

5027 

+  17  I438-97 

7i-5 

+  8.160+  .355 

-      .06 

—  .038       o 

.O?         .29      .13 

5028 

—  16  21  30.48 

65.2 

+  8.201+  .454 

—      .11 

-.017+  I 

.O?         .30      .15 

55  Sagittarii  i? 

5029 

+  11  57  30.03 

77.6 

+8.267+  -370 

-      .06 

—  .008       o 

.11         .35      .16 

46  Aquilse 

5030 

—  81  36    0.64 

79-4 

+8.293+1.499 

-2.15 

+  .OII         0 

.07         .60     .20 

44  G  Octantis 

5<>3i 

+  45  17  15.88 

77-i 

+8.398+  .244 

-      -03 

+.105+  I 

.11         .35      .16 

5032 

-  15  42    6.88 

75-5 

+  8.120+   .452 

—      .11 

—  .182+  I 

.IO        .45      .l8 

226  G  Sagittari 

5033 

+  11  35  27.01 

61.2 

+8.289+  -371 

-      .O? 

-.013       o 

.IO         .40      .22 

02380.  sV&-iVoo'.'6i4° 

5034 

-72  4449-61 

86.2 

+8.325+  .924 

-      .69 

+  .O2O         O 

.12         .67      .20 

70  G  Pavonis 

5035 

+  40    i    1.90 

68.2 

+8.367+  .268 

-    -°3 

+  .OII         O 

.13         .49      .24 

5036 

-31    834.48 

75-2 

+8.380+  .500 

-    .14 

—  .019      o 

.IO         .44      .l8 

227  G  Sagittarii 

5037 

+  50  17  34.92 

79-5 

+8.253+  -206 

-    -03 

—  .152—     2 

.06         .18      .08 

1  16  Cygni  c1 

5038 

+  50  17    7.94 

55-9 

+  8.253+  -206 

-    -03 

-.156-     2 

.08         .33      .20 

fC22App.38"i35° 

5039 

+  25  31  56.50 

75-o 

+8.450+  .326 

-    -°5 

+  .013       o 

.09         .36      .15 

10  Vulpeculae 

5040 

-32    859.29 

81.4 

+8.416+  .503 

-    -IS 

—  .028       o 

.10      .51    .18 

228  G  Sagittarii 

5041 

—  56  36  10.46 

84.9 

+8.312+  .648 

-    .29 

-.149+     I 

.12         .65      .20 

5042 

+  13    345-38 

60.5 

+8.451+  .365 

-    .06 

-.015       o 

.13         .45      .26 

5043 

+  41  31  58.28 

81.6 

+8.512+  .261 

-    -03 

+  .007       o 

.12        .45      .l8 

5044 

—  20    o    6.08 

71.2 

+  8.418+  .457 

—      .12 

—  .096—    I 

.06         .27      .12 

56  Sagittarii/ 

5045 

+  37    645.41 

77-3 

+  8.559+   -282 

-      .04 

+  .034+  I 

.06         .29      .11 

15  Cygni 

5046 

+   7  22  13.89 

57-4 

+8.527+  .382 

-      .08 

—  .009      o 

.14         .47      .28 

5047 

+  10  22      9.76 

65-5 

+  8.587+  .372 

-      -07 

—  .004      o 

.02         .11      .05 

5048 

+  44  53  11.40 

68.5 

+  8.656+   .244 

-      -03 

+.037+  I 

.04         .l6      .08 

S  2579.  8M  <  2",  slow  binary 

5049 

+  3446    7.42 

55-9 

+  8.628+  .290 

-      .04 

—  .012      o 

.12        .47      .28 

W.  H.  8*Cs  38"  27° 

5050 

-59  2634-39 

87.9 

+  8.666+  .670 

-    -33 

+  .015       o 

.12        .71      .20 

74  G  Pavonis  * 

2O4 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3"t 

p.  and  100  A  p 

Prob.  Errors. 
aEp.       1OC|1      a  10 

M 

h    m         s 

8                     S 

s 

s 

ft                  ft              n 

5051 

x  cygni 

5-2 

19  42  37-794 

72.6 

+  2.276O+.OO2O 

+  .00  1 

+  .0009+   4 

.07             .30          .13 

5052 

8  Sagittae 

3-8 

42  5S-727 

80.8 

•4-2.  6746+.  oooi 

.000 

+  .0001       o 

.04            .22          .08 

5053 

Br  2515 

6.4 

43  3I-389 

74-9 

+  3-3I07--oo63 

—  .004 

+  .OO2O          O 

.10            .56         .22 

5054 

Arm^  2511 

6.0 

43  54-806 

OI.O 

+  2.I296+.OOII 

.000 

+  .0013       o 

.12            .96         .15 

5055 

v  Aquilas  m 

5-9 

43  59-3°° 

71.4 

+  2.8271—  .0009 

—  .OOI 

+  .0006       o 

.10        .34      .17 

5056 

Capeso  3903 

7.8 

44  I4-I57 

86.6 

+3.6838-  .0128 

—  .OIO 

+  .0006      o 

.12           .64        .19 

5057 

Groomb  2952 

6.0 

44  27.059 

70.7 

—  0.0665—  .0376 

—  .O2I 

+  .0026+   I 

.09           .57         .24 

5058 

£  Sagittae  m 

S-o 

44  32-320 

67.0 

+  2.663I  +  .OO02 

.OOO 

+  .0013       o 

.10        .50      .24 

5059 

L  8227 

5-8 

44  39-596 

67.8 

+4.7984-  .0442 

-.036 

—  .0014       o 

.28         2.02          .90 

5060 

L8239 

5-6 

45    3-219 

86.1 

+  4.0851—  .0222 

—  .Ol6 

+  .0025       o 

.13        .86      .24 

5061 

Br  2519 

5-7 

45  16.714 

84.0 

+  3-  3040-  .0064 

—  .OO4 

—  .0016       o 

.08        .40      .13 

5062 

a  Aquilae 

0.6 

45  54-273 

68.8 

+  2.9274—  .OOl8 

—  .001 

+  .0361—     2 

.02            .10         .05 

5063 

Br  2529 

6.4 

45  55-125 

79-7 

+  2.I224+.OOI2 

+  .OOI 

+  .0002          0 

.10        .36      .15 

5064 

L  8226 

6-3 

45  56.773 

88.1 

+  5.27I7-.  0638 

-.053 

+  .0028—    I 

.15            .84         .24 

5065 

o  Aquilae 

5-3 

46  14-199 

71.0 

+  2.8737—  .OOIO 

—  .OOI 

+  .0157+  I 

.10        .36      .17 

5066 

Br  2522 

6.2 

46  23.362 

73-9 

+  3.4908-  .0094 

—  .006 

.0000      o 

.08            .38         .16 

5067 

dM*Pi|UM 

Var. 

46  43-l87 

77-7 

+  2.  3008+.  OOI3 

+  .00  1 

—  .0060       o 

.l6         1.24         .44 

5068 

Br  2527 

5-° 

46  45-752 

67-9 

+  2.  5829+.  OOO6 

+  .OOI 

+  .0016       o 

•13            -50         -25 

5069 

Br  2534 

5-5 

47    i-39° 

62.3 

+  2.I252  +  .OOIO 

+  .OOI 

+  .0009—    I 

.11            .48         .26 

5070 

Groomb  2950 

5-8 

47  ii-4i5 

62.6 

+  2.0598  +  .0010 

.000 

+  .0008       o 

.15            .64         .34 

5071 

i}  Aquilae 

Var. 

47  22.752 

72-5 

+  3-0573-  -0032 

—  .002 

+  .0005       o 

.05            .30         .12 

5072 

Arm*,  2524 

5-8 

47  49.146 

89.8 

+  2.  5224+.  O008 

+  .OOI 

—  .OOI  I          O 

.IO            .80         .19 

5073 

Br  2532 

6-5 

47  54-143 

86.8 

+  2.  6754+.  OOOI 

.000 

—  .0004       o 

.13            .39         .16 

5074 

Paris  27025 

5-8 

48    4-5" 

90.2 

+  3-I434--oo43 

-.003 

+  .OOIO         O 

.12        .66      .18 

5075 

Br  2542 

5-2 

48    7.181 

62.7 

+  1.5058—  .0028 

—  .002 

—  .0019+   I 

.08        .26      .14 

5076 

L8262 

6.4 

48  18.499 

89.8 

+  3-5975-  -0112 

-.008 

-.0094+  3 

.10        .69      .17 

5077 

L  8224 

6.0 

48  21.542 

86.4 

+  6.2580-.  1153 

-.098 

+  .0158+     2 

.18        .88      .28 

5078 

t  Sagittarii 

4-i 

48  21.841 

83.2 

+  4.1494-  .0249 

-.017 

+  .0008       o 

.10        .68      .21 

5079 

£  Draconis 

3-9 

48  30.842 

71.8 

—  0.1821—  .0442 

-.025 

+  .0158      o 

.03        .20      .08 

5080 

L  8260 

6.7 

48  40.647 

81.6 

+  3.8522-.  0173 

—  .012 

—  .0014       o 

.14        .72      .25 

5081 

L824S 

5-4 

48  42.374 

89-3 

+  5-0653-.  0567 

-.043 

+  .0014       o 

.16        .80      .23 

5082 

Br  2530 

6.2 

48  42.739 

70.4 

+  3.2570-  .0058 

-  -003 

—  .OOOI         O 

.13        .51      .24 

5083 

PulkM  2847 

5-8 

48  58.294 

89.8 

+  1.8090—  .0003 

.000 

+  .0006       o 

.12        .66      .18 

5084 

t  Pavonis 

4.0 

49    !-859 

78.8 

+  7.0172—  .1646 

-.144 

+  .0162+   7 

.09            .57          .20 

5085 

Groomb  2962 

6.0 

49  iQ-393 

70.1 

+  1.7667—  .0006 

.000 

—  .0016       o 

.12            .62          .28 

5086 

Br  2537 

4-7 

49  12.650 

74-7 

+  2.  55O2  +  .OOO7 

+  .001 

+  .OO2I          O 

.11             .45          .20 

5087 

Br  2531 

6.0 

49  12.874 

67-3 

+  3.2500—  .0058 

-.003 

+  .0004       o 

.10       .33      .17 

5088 

Pi  3H 

6.7 

49  13-259 

73-8 

+  3-  25I2-.  0058 

—  .003 

+  .0014      o 

.18        .68      .30 

5089 

f  Aquilae 

S-o 

49  24.101 

75-5 

+  2.9076—  .OOI5 

—  .OOI 

+  .0064       o 

.09        .28      .14 

5090 

Br  2535 

5-7 

49  37-431 

73-i 

+  3.0742-.  0034 

—  .002 

+  .OO2I          0 

.13            .48         .22 

5091 

<•)  Sagittarii 

4.8 

49  42.908 

73-7 

+  3.68lO—  .OI34 

—  .009 

+  .0156—    I 

.09            .40         .17 

5092 

Br  2541 

5-7 

5°  i6.474 

87.7 

+  2.  545  1  +  .0008 

+  .00  1 

+  .0016      o 

.12            .48         .l6 

5093 

|8  Aquilae 

3-8 

50  24.071 

67.2 

+  2.9469—  .0015 

—  .OOI 

+  .0023+   3 

.02            .11          .05 

5094 

/A1  Pavonis 

5-8 

50  39.206 

83.8 

+  5.8872-.  0966 

-.077 

-.0028+  8 

.l6            .8l          .27 

5095 

Br  2533 

4.6 

50  48.721 

72.8 

+  3.6870-  .0138 

—  .009 

+  .0004       o 

.08            .28         .13 

5096 

Yarn  8793 

6.0 

51    9.056 

92.7 

+  2.  igOl  +  .OOI3 

+  .OOI 

+  .OOOI         0 

.12           .90        .20 

5097 

Br  2552 

5-i 

51  14.269 

70.7 

+  1.2346—  .0070 

—  .004 

+  .0008       o 

.10        .33      .16 

5098 

S  Sagittae 

Var. 

51  28.718 

69.4 

+  2.7255—  .OOO2 

+  .OOI 

+  .OOO2         0 

.13            .44         .22 

5099 

<fr  Aquilae 

5-4 

51  30.062 

53-5 

+  2.8406—  .OOI  I 

.000 

+  .0013       o 

.16            .45          .30 

SIGO 

l«.2  Pavonis 

5-4 

19  52    8.708 

83.6 

+  5.8871-.  0988 

—  .080 

+  .OO66  +     2 

.16            .8l          .27 

5051  S  2580.     8M  26"  71°.  5058  Clark.     sM;-6«o  o'/2  158°,  very  slow.  5059  Dunlop.     5»«8- 


-7™S  23'' 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


205 


No. 

Decl.  i  goo 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H'  and  i  oo  AH' 

Prob.  Errors. 
8Ep.  loop'  Sio 

Remarks. 

5051 

of            ft 

+  33  29  41.11 

65-9 

/f                n 

+     8.228+.  295 

ft 

-.04 

-.452        o 

//         //        // 

.06         .25      .12 

612517.     i7Cygni* 

5052 

+  18  17  14.40 

76-5 

+  8.7i3  +  .348 

-.06 

+  .009       o 

.05         .24      .09 

5053 

-ii    7  10.39 

74-5 

+  8.72I  +  .43I 

—  .10 

—  .029       o 

.08         42      .17 

5054 

+  38    935-42 

97-6 

+  8.778  +  .  276 

-•°3 

-  .003       o 

.12         .69      .15 

5055 

+  11  34    0.37 

66.4 

+  8.780+.  367 

-.07 

—  .007       o 

.09         .31      .16 

S  2583.    6?4-7?o  i  .'4  117° 

5<>56 

-2658    1.65 

§1.1 

+  8.809  +  .479 

-.14 

+  .003       o 

.12         .65      .22 

5057 

+  69    5  33-64 

69.0 

+     8.799—  .012 

-.08 

—  .024      o 

.08      .49    .22 

5058 

+  185327.86 

56.2 

+  8.855  +.345 

-.06 

+  .025       o 

.09         .34      .20 

22585.    9"  9"  312°  * 

5059 

-55  13  32.00 

66.9 

+  8.8i8+.624 

-.28 

—  .022          0 

.19      1.35      .61 

71  G  Telescopii  * 

5060 

-  40    7  40.39 

82.9 

+  8.847  +  .530 

-.18 

—  .024      o 

.12         .69      .22 

235  G  Sagittarii 

5061 

-ii    i    2.53 

73-4 

+  8.924+428 

—  .10 

+  .036      o 

.08         .32      .14 

51  Aquilas 

5062 

+  8  36  14.56 

64-7 

+  9.3  1  7  +  .383 

-.07 

+  .380+   5 

.02         .11      .06 

Altair  Parallax,  o"23 

5063 

+  38  27  29.48 

72.4 

+  8.923  +  .  273 

-.04 

—  .016       o 

.09         .31      .15 

5064 

-61  25  44.18 

87.2 

+  8.956+.  684 

-•36 

+  .015       o 

.12         .73      .20 

75  G  Pavonis 

5065 

+  10    954-94 

65-7 

+  8.8i8  +  .373 

-.07 

-.145+     2 

.09         .31      .16 

5066 

-19  17  56.57 

73-o 

+  8.917  +  451 

-•13 

-  .058      o 

.09         .36      .l6 

57  Sagittarii 

5067 

+  32  39  39.20 

72-3 

+  8.947  +  .295 

-.04 

-.054-     I 

.15         .96      .39 

Pulkjs  2836  4™oto  i3"?5 

5068 

+  22"  2  1   20.35 

64.2 

+  8.985  +  .333 

-.06 

—  .019      o 

.12         .51      .26 

12  Vulpeculas 

5069 

+  38  27  53.34 

59-i 

+  9.122  +  .  273 

-.04 

+  .097       o 

.11         .39      .23 

19  Cygni 

5070 

+  40  20  41.93 

60.5 

+  9.016  +  .  264 

-•°3 

—  .022       o 

.11      44    .24 

5071 

+  o  44  55.79 

70.6 

+  9.043  +  .394 

-.08 

—  .009      o 

.05        .29     .12 

3?I5  to  4?7 

5072 

+  2444   6.99 

90.6 

+  9.106+.  324 

-•°5 

+  .019       o 

.11       .82     .19 

5073 

+  18  24  53.00 

81.8 

+  9.091  +  .344 

-.06 

-  .003       o 

.12         .37      .16 

9  Sagittas 

5074 

-     3   22   24.97 

87.8 

+   9.113  +  404 

—  .10 

+  .006      o 

.11         .60      .17 

5075 

+  52  44    2.66 

52.2 

+  9.040+.  192 

-•°3 

—  .070      o 

.08         .24      .l6 

20  Cygni  d 

5076 

—  24  ii  23.02 

86.3 

+   8.714+.  462 

-.14 

—  411—    I 

.10         .73      .20 

242  G  Sagittarii  * 

5077 

-6925  33.05 

83-7 

+   9.039  +  .81  1 

-.58 

—  .090+     2 

.14         .73      .24 

76  G  Pavonis 

5078 

-42    7SI-58 

80.5 

+   9.i8i  +  .535 

—  .20 

+  .052       o 

.09         .52      .l8 

5079 

+  70    047.67 

69-7 

+  9.172-.  025 

—  .10 

+  .031+     2 

.04         .17      .08 

52603.    7*63"  3° 

5080 

-33  18  26.90 

77.0 

+  9.160+.  496 

-.16 

+  .006       o 

.13         .67      .26 

244  G  Sagittarii 

5081 

-59    95i-6i 

84.4 

+  9-I37  +  -653 

-•34 

—  .019      o 

.13         .56      .19 

80  G  Pavonis 

5082 

-   8  50    2.50 

68.6 

h  9.134+418 

—  .11 

—  .022       o 

.12         .39      .20 

56  Aquilae 

5083 

+  46  46    8.72 

86.0 

+  9.163+.  231 

-•°3 

—  .014       o 

.12         .52      .17 

5084 

-73  1027.28 

76.6 

+  9.049  +  .908 

-•77 

-.132+     2 

.08      43    .16 

5085 

+  47  40  24.62 

71.6 

+  9.190+.  225 

-•°3 

—  .002          0 

.09      42    .18 

5086 

+  2349    6.38 

71.6 

+  9.223  +  .327 

-.06 

+  .028       o 

.09      .36    .16 

13  Vulpeculae 

5087 

—   8  29  16.17 

64.8 

+  9.175  +  417 

—  .11 

—  .021       o 

.08      .29    .16 

}57  Aquilse 

5088 

—   8  29  51.29 

75-6 

+  9.176+418 

—  .11 

—  .020       o 

.14      .63    .26 

122594.  36"  171° 

5089 

+  8  12    9.24 

69.8 

+  9.I27  +  .373 

-.08 

-.083+  I 

.09      .27    .14 

5090 

+  o    043.84 

70.2 

+  9-2I4+-394 

-.09 

-.013       o 

.11      .38    .19 

58  Aquilas 

5091 

-2633  53.13 

70.8 

+  9.317  +  474 

-.14 

+  .083+     2 

.09      .38    .17 

5092 

+  24    3  25.26 

77-i 

+  9.269  +  .  325 

-.06 

—  .009      o 

•io      .35    -15 

5093 

+  69  24.45 

66.2 

+  8.805  +  .377 

-.08 

-  -483       o 

.02      .11    .05 

OS  532.  IIM  12"  14°,  v.  slow 

5094 

—  67    12  46.48 

82.3 

+  9-I03  +  -756 

-•Si 

—  .204       o 

.14      .69    .24 

L  8244 

5095 

—  27   26      6.09 

73-8 

+  9.302  +  472 

-•15 

—  .018       o 

•08      .35    .15 

59  Sagittarii  6 

5096 

+  36  43  54.62 

93-i 

+  9-3S4+.278 

-.04 

+  .008       o 

.13      .88    .20 

5097 

+  57  15  40.40 

65-4 

+  9.362  +  .  155 

-•°3 

+  .010         0 

.08      .26    .14 

23  Cygni        < 

5098 

+  16  22  ii.  18 

66.3 

+  9.368  +  .347 

-.07 

-.003       o 

.11         40      .21 

Br  2544.    io  Sagittae  * 

5099 

+  11    9  29.11 

53-8 

+  9.381  +  .362 

-.08 

+  .008      o 

.13      .45    .28 

Sioo 

—  67   12   5I.l8 

77-9 

+  9-347  +  -7S5 

-•Si 

—  .076+   I 

•13      -55    -22 

L825i 

5076.     IOM  17"  125°,  rectilinear  relative  motion. 


5098. 


to  6™4 


2O6 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.  and  100  A  |i 

Prob.  Errors. 
aEp.     loop,     a  10 

M 

h    m        s 

8                     S 

s 

5 

/*             tt          it 

5101 

Br  2540 

5-i 

19  52  16.767 

72-5 

+     3.4055-  .0084 

—  .004 

+  .OO04+      I 

.08         .36       .16 

5102 

Br  2547 

5-i 

52   17.278 

72.8 

+  2.i432  +  .ooi3 

+  .OOI 

—  .0005       o 

.09         .28       .14 

5103 

i?  Cygni 

4.1 

52  33-265 

77-6 

+  2.2499+.  0014 

+  .O02 

—  .0028      o 

•°9        -39      -15 

5104 

Br  2539 

S-o 

52  51.691 

73-9 

+  3.6604-  .0135 

-.008 

+  .0018      o 

.09        .38      .16 

5105 

<l>  Cygni 

S-o 

53    2.670 

76.7 

+  1.5518—  .0026 

—  .OO2 

—  .0044      o 

.04           .22         .09 

5106 

Groomb  2992 

7-6 

53    5-76i 

71.9 

+  0.9862—  .0116 

-.008 

—  .0008      o 

.11            .60        .26 

5107 

Br  2545 

5-6 

53  1  2.994 

47-8 

+    2.7236—  .0002 

+  .OOI 

+  .OOO2         O 

.14           .40        .20 

5108 

6  Sagittarii 

4-4 

53  13-745 

88.1 

+    3.9144-  .0195 

—  .012 

+  .0013       o 

.12          I.O5          .26 

Slog 

L  8269 

5-3 

53  19-308 

86.5 

+    5.0828—  .O60I 

—  .042 

+  .0015+  I 

.20           .82         .27 

5110 

L  8292 

5-6 

53  21.861 

85-3 

+    3.9019—  .0190 

—  .012 

+  .0069      o 

.16        .86      .27 

S"i 

CapeM  3942 

7-i 

53  38-633 

81.3 

+    3.5587-  -0115 

—  .007 

—  .0001       o 

.13           .60        .22 

5"2 

1,8285 

6.0 

53  43-428 

87-4 

+    4.2639—  .0296 

—  .019 

+  .0003       o 

.18         1.14        .32 

5"3 

Groomb  2984 

5-6 

53  45-529 

62.8 

+  2.o849+.oon 

+  .00  1 

+  .OO2I         0 

.12        .68      .34 

5"4 

Br  2566 

7.2 

53  49-248 

77-7 

+  0.6139—  .0204 

-.013 

.0000      o 

.10        .51      .19 

S"S 

L  8296 

5-8 

53  53-688 

92.9 

+  3.8745—  .0180 

—  .012 

+  .OIO7+     2 

.16      i  .00      .24 

5116 

Pi  371 

5-2 

54    0-954 

67.0 

+  1.1490—  .0086 

—  .006 

—  .0009       o 

.09        .26      .14 

5"7 

Groomb  2990 

6.7 

54    1.080 

64-4 

+  1.6413—  .0018 

—  .001 

+  .0005       o 

.14      .60     .31 

5118 

y  Sagittae 

3-7 

54  18.589 

78.8 

+  2.6674+.OO02 

+  .001 

+  .0042      o 

.04        .20      .07 

5"9 

Grw«j  1789 

6.0 

54  21.106 

88.4 

+  3.2646—  .0061 

-  -003 

—  .0193+     2 

.10        .58      .16 

5120 

Pi  339 

8.6 

54  30-675 

87.2 

+  3.5260—  .0110 

—  .006 

+  .0003       o 

.15     .78    .23 

5121 

Groomb  2989 

6.9 

54  34-439 

64-3 

+  2.0165  +  .0009 

+  .OOI 

—  .0001       o 

.16      .64     .34 

5122 

Pulk«  2861 

5-6 

54  40.042 

89.1 

+  2.3780+.  0014 

+  .OO2 

+  .0023       o 

.12           .64        .18 

5123 

Br  2553 

5-8 

54  53-093 

67.6 

+  2.5737  +  .ooo6 

+  .OOI 

-  -0053       ° 

.12            .45         .22 

5124 

Pi  351 

6.2 

55  27-38i 

80.2 

+  3.5709-  -0119 

—  .OO6 

+  .0014       o 

.10           .48         .18 

5125 

Br  2555 

5-8 

55  32-343 

69.1 

+  2.7089     .0000 

+  .OOI 

—  .0002          O 

.09           .27         .15 

5126 

Groomb  3001 

6.0 

56  12.089 

62.2 

+  1.8870+.  0003 

+  .OOI 

+  .0035       o 

.16           .70        .38 

5127 

Br  2557 

5-4 

56  I5-I47 

56-9 

+  2.i995  +  .ooi4 

+  .OO2 

+  .0001       o 

•13        -45      -27 

5128 

Br  2551 

5-8 

56  22.522 

79-7 

+  3-3639-  -o°81 

—  .OO4 

+  .OO22         O 

.07            .33         .12 

5129 

Br  2549 

4.6 

56  30.632 

78.2 

+  3-6955-  -0148 

—  .009 

+  .0027       o 

.04            .22         .09 

5130 

Groomb  3004 

6.2 

56  36-397 

62.2 

+  1.5923-  .0024 

—  .OO2 

+  .OO22         O 

.11             .39         .22 

5i3i 

L  8310 

4.8 

56  54-942 

88.4 

+  3-997I--°223 

-.013 

+  .0064+     I 

.11        .66      .18 

5132 

Br  2558 

4-9 

56  58-913 

71.7 

+  2.4698  +  .ooi2 

+  .OOI 

+  .0039      o 

•08     .33    .15 

5133 

Br  2559 

6.0 

57  30-472 

74.8 

+  2.  5415  +  .  0009 

+  .OOI 

+  .0005      o 

.10        .44      .18 

5134 

Br  2561 

5-5 

57  46.886 

62.9 

+  2.5440+.  0009 

+  .OOI 

+  .0059       o 

•13      -51     -27 

5135 

Pi  369 

6.9 

57  48.795 

81.8 

+  3.5606—  .0121 

—  .006 

—  .0027       o 

.08      .54    .17 

5136 

L8322 

5-2 

57  59-187 

76-5 

+  3.8115-  .0178 

—  .009 

+  .0028      o 

.10        .52      .20 

5137 

Br  2570 

5-3 

58  31.829 

71.6 

+  1.6983—  .0013 

—  .001 

+  .0019       o 

.09      .27     .14 

5138 

8  Pavonis 

3-6 

58  55-002 

77-5 

+  5.9258-  .0933 

—  .060 

+  .1924+24 

.09         .52       .20 

5139 

Br  2565 

5-6 

58  55-477 

81.4 

+    2.  7456-  .0003 

+  .OOI 

+  .0006      o 

.10       .45      .17 

5HO 

Groomb  3402 

8-5 

59    o-77' 

82.1 

-53.181  —  25.977- 

+.356—386 

•o?        -45      -15 

5i4i 

Pi  377 

7-4 

59    5-072 

81.3 

+  3-5355-  -on6 

—  .006 

+  .0040       o 

.11            .62         .21 

5H2 

Br  2562 

6.0 

59  14.068 

64.4 

+  3.0918-  .0039 

—  .001 

—  .0005  +   I 

.13            .46         .25 

SH3 

T  Aquilae 

5-9 

59  15-267 

77-4 

+  2.9309—  .0020 

.000 

+  .0009      o 

.06            .33         .12 

5144 

PulkM  2884 

5-9 

59  30.7" 

77-3 

+    2.  4647  +  .0024 

+  .OO2 

+  •0515+   5 

.10        .87      .30 

Si45 

Br  2560 

6.7 

59  34-121 

67.8 

+    3-3I55-  -0075 

-.003 

—  .0006       o 

.12           .48         .24 

5146 

Br  2568 

5-9 

59  36-663 

68.3 

+    2.6945  +  .0003 

+  .OOI 

—  .0281+    2 

.08           .27         .14 

5M7 

£  Telescopii 

5-i 

59  43-545 

87.9 

+    4.6160—  .0443 

-.025 

—  .0027       o 

.15            .75         .22 

5H8 

Br  2563 

6.6 

!9  59  52.777 

65-4 

+    3-3387-  -0078 

—  .004 

+  .0002       o 

.13            .42         .23 

5H9 

Br  2578 

5-6 

20   o  25.101 

68.6 

+    0.6454—  .0209 

—  .014 

+~Iboi4      o 

.06            .24         .12 

5i5o 

Polks,  2887 

5-9 

20    o  40.901 

88.3 

+  2.352I  +  .OOI5 

+  .OO2 

—  .0001       o 

.12           .63         .18 

5121  OS  1*0-9*0.     o'/33o6°;   AC:  =  2  2607.     &*8  3"!  291°. 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


207 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H/  and  100  A  ji' 

Prob.  Errors. 
SEp.  100  n'  Sio 

Remarks. 

5101 

•     /       // 
-  IS  45  24-56 

70.4 

//                      // 

+  9-343+  -434 

It 

—  .12 

—  .090       o 

//         //       // 

.08      .36    .17 

61  Sagittarii  g 

5102 

+  38  J3  M-46 

71.1 

+  9.424+  .272 

-.04 

—  .010       o 

.09      .30    .14 

22  Cygni 

5103 

+  34  49    2.84 

73-o 

+  9.415+  -285 

-•°5 

-  -039      o 

•08      .35    .15 

5104 

-26  27  58.80 

76.0 

+  9.507+  .466 

-.14 

+  .029      o 

•°9      -35    -i5 

60  Sagittarii  A 

5105 

+  52  10  23.97 

77-8 

+  9.461+  .195 

-•°3 

-.031-    i 

.04         .20      .08 

2  2605.  7M5  3"  181° 

"5106 

+  60  33  29.36 

72-7 

+     9.486+    .122 

-•°3 

—  .010      o 

.10         .47      .20 

5107 

+  16  31  10.67 

54-4 

+  9-5l6+  -346 

-.07 

+  .OII         O 

.13         .49      .30 

ii  Sagittae 

5108 

-353248.S2 

82.7 

+  9.462+  .499 

-•17 

—  .044      o 

.11         .65      .21 

256  G  Sagittarii  0  l 

Siog 

-593854.45 

86.4 

+  9-473+  -649 

-•35 

—  .040      o 

.16         .75      .24 

85  G  Pavonis 

SIID 

-3458    1.68 

74-8 

+   9.438+  .498 

-•I? 

-.079+  I 

•IS      -73    -3° 

257  G  Sagittarii  0~ 

S"i 

—  22   28  56.13 

78.1 

+  9-549+  -452 

-•13 

+  .OII         O 

.15      .73    .28 

261  G  Sagittarii 

5"2 

-45  23    9.25 

82.0 

+  9-525+  -543 

—  .22 

—  .019       o 

.15      .79    .27 

259  G  Sagittarii 

S"3 

+  40    5  56.06 

57-2 

+  9.546+  .264 

-.04 

—  .001          0 

•12      -53    -3° 

5"4 

+  64  27  18.40 

80.6 

+  9-551+  .075 

-•°5 

—  .001       o 

.IO         .58      .20 

5U5 

-3358    3-89 

89.0 

+  9-247+  -494 

-•I? 

-.310+  I 

.l8      1.26      .32 

262  G  Sagittarii 

5116 

+  583443-20 

55-8 

+  9.543+  -143 

-•°3 

—  .024      o 

.08         .23      .15 

5"7 

+  5038    0.18 

57-9 

+  9-567  +  -206 

-.04 

.000      o 

.13         .49      .29 

5118 

+  19  13  13.01 

76.5 

+  9.605+  .338 

-.07 

+  .016      o 

.04         .20      .08 

SiiQ 

—  IO  13   IO.22 

83.8 

+  9.198+  .411 

—  .11 

-•395-    2 

.09         .46      .15 

5120 

-2i    747-53 

83.6 

+  9.600+  .447 

-•13 

—  .005       o 

.14        .6l      .21 

5121 

+  41  5925.34 

60.3 

+  9-595+  -254 

-.04 

—  .015      o 

.12         .45      .25 

* 

5122 

+  3d  42  44.17 

85-4 

+  9.608+  .300 

-•°5 

—  .009       o 

.12         .53      .18 

5123 

+  22  4944-25 

69-5 

+  9.646+  .324 

-.06 

+  .OI2—     I 

•09      -37    -18 

14  Vulpeculae 

5124 

-23    044.13 

82.2 

+  9.656+  .452 

-.14 

—  .021       o 

.10      .51    .17 

264  G  Sagittarii 

5125 

+  17  14  34.88 

64.8 

+  9.669+  .342 

-.07 

—  .015       o 

.09      .26    .15 

13  Sagittae 

5126 

+  45  29  57-14 

56.6 

+  9.712+  .237 

-.04 

—  .022       o 

•14      -57    -33 

5«7 

+  3646    6.90 

57-7 

+  9-749+  -276 

-•05 

+  .OII         O 

.12      .54    .31 

25  Cygni 

5128 

-!3  545I-26 

76.7 

+  9.76,7+  .425 

—  .12 

+  .019      o 

.08      .35    .14 

63  Sagittarii 

5129 

-27  59  16.63 

81.2 

+  9.768+  .467 

-.16 

+  .OIO         0 

.05      .26    .09 

62  Sagittarii  c 

5130 

+  51  4653-43 

66.0 

+  9.768+  .199 

-•°3 

+  .003      o 

.IO        .42      .21 

5i3i 

-38  13    2.24 

83.8 

+  9-697+  -SOS 

—  .20 

—  .092+  I 

.12        .54     .19 

268  G  Sagittarii 

5132 

+  27  28  37.16 

69.8 

+  9.800+  .310 

-•05 

+  .006      o 

.08        .32      .15 

15  Vulpeculae 

5133 

+  24  31  21.92 

72.6 

+  9.828+  .319 

-.06 

—  .006      o 

.08        .35      .16 

5134 

+  2439  27.89 

62.2 

+  9.914+  -319 

-.06 

+  .059+  I 

.11         .49     .26 

16  Vulpeculae 

5135 

-22   52  34.78 

84.9 

+  9.882+  .448 

-•15 

+  .025       o 

.08        .51      .15 

269  G  Sagittarii 

5136 

-32   20  12.83 

76.4 

+  9.867+  .480 

-•17 

-.003      o 

.10      .51    .20 

270  G  Sagittarii 

5137 

+  494934.07 

60.9 

+    9.910+    .211 

-.04 

—  .002      o 

.08         .22      .13 

26  Cygni  e  * 

Si38 

—  66  26  12.15 

79.8 

+    8.795+    -772 

-•51 

—  1.146+26 

.08         .45      .l6 

5139 

+  1545    1.64 

76.4 

+   9-934+  -343 

-.07 

—  .008      o 

.09         .36      .15 

14  Sagittae 

SMO 

+  88  49  32.94 

76.8 

+  10.041  —  6.690 

+.092+45 

.08         .46      .I? 

SHi 

-2i  35  44.82 

79-4 

+  9.939+  .444 

-.14 

—  .015      o 

.11         .56      .20 

273  G  Sagittarii 

5M2 

-  o  59  18.03 

66.4 

+  9.846+  .387 

—  .IO 

—  .119      o 

.IO         .40      .20 

62  Aquilae 

SH3 

+  6  59  44.31 

73-5 

+  9.988+  .367 

-.09 

+  .O2I         O 

.06         .30      .12 

5144 

+  2937  47.01 

76.6 

+  9.458.+  .314 

-•05 

-.528+  6 

.10      .73    .26 

5145 

-ii  52  56.51 

68.3 

+  9.978+  .415 

—  .12 

-.013      o 

.11         .38      .19 

64  Sagittarii 

5146 

+  16  47  56.87 

66.4 

+  9-581+  .333 

-.07 

-•413-    4 

.07         .28      .14 

15  Sagittae 

SH7 

-53  I0    i-35 

87.2 

+  10.002+    .579 

-.29 

—  .001      o 

.12         .67      .19 

5148 

—  12  56  52.12 

72.6 

+    9.970+    .417 

-•13 

—  .044      o 

.11         .48      .21 

65  Sagittarii 

5H9 

+  64  32  27.10 

67-5 

+  10.043+    .077 

-•05 

—  .012      o 

.06         .20      .IO 

64  Draconis  e 

SiSo 

+31  56  5-72 

84-7 

+  10.063+    -292 

-•°5 

—  .012          0 

.12         .51      .l8 

h  1471.    iiM29"4° 

3137  W.  H.    8rs  42"  147°;  BC:  12"  9"  75°- 


208 


PRELIMINARY  GENERAL   CATALOGUE   OF   STARS   POR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

|i  and  100  A  \i 

Prob.  Errors. 
aEp.     loop     aio 

M 

b    m        5 

s               s 

s 

s 

ii          a        n 

SiSi 

ij  Sagittae 

5-2 

20    o  43-354 

71.2 

+  2.66O2  +  .OOO2 

+  .OOI 

+  .0016       o 

.10         .27       .14 

5152 

Br  2580 

6.7 

i  13.669 

80.2 

+0.6764—  .0204 

—  .014 

+  .0071       o 

.11         .44       -17 

5iS3 

p  Draconis 

4-7 

2   22.179 

69.7 

+  0.285  7  -.0330 

—  .022 

+  .0029—     2 

.06         .27       .13 

5154 

Br  2604 

6.6 

2   25.209 

67.2 

—  1.6177—  .1278 

-.087 

—  .0061+   4 

.08         .30       .15 

5155 

Pi  402 

7-3 

2  26.426 

80.3 

+  3.4729—  .0106 

—  .005 

+  .0024      o 

.15         .78       .28 

5IS6 

Br  2572 

5-i 

2  35-566 

69.2 

+  2.  577  1  +  .0008 

+  .001 

+  .0005      o 

.08         .33       .16 

5157 

Br  2573 

5-7 

2  38.876 

70.6 

+  2.2274+.0022 

+  .O02 

-.0190+   3 

.08         .26       .13 

5158 

Paris  27500 

7-i 

2  46.355 

91.6 

+3.  2156-  .0059 

—  .OO2 

+  .OOII         O 

.07         .70       .15 

5159 

Br  2571 

6-5 

2  51-995 

65.2 

+3.0987—  .0040 

—  .OOI 

+  .0070       o 

.10        .34      .19 

5160 

Pi  406 

6.4 

3    3-29° 

66.8 

+  3.2821—  .0071 

-.003 

.0000       o 

.15      .58    .29 

5161 

Groomb  3041 

6.4 

3    5-i5i 

73-6 

+  1.3660—  .0059 

—  .OO4 

—  .0006—   I 

.10        .62      .24 

5162 

Groomb  3051 

6-5 

3  29.280 

73-2 

+  0.7632—  .0187 

—  .OI2 

+  .0019—    I 

.12            .54         .23 

5i63 

Groomb  3042 

5-9 

3  35-840 

74-3 

+  1.5819—  .0034 

—  .002 

+  .0242+    2 

.08            .46         .18 

5i64 

Pi  410 

7.6 

3  42.860 

74-9 

+  3.5I22-.OH5 

-.005 

+  .0025       o 

.15            .70         .29 

5165 

Br  2586 

5-7 

3  57-455 

63-2 

+  0.9618—  .0140 

—  .009 

+  .0177      ° 

.08            .27         .15 

5166 

1,8362 

5-5 

4  37-789 

82.4 

+3.9501—  .0194 

—  .Oil 

+  .0360+13 

.09            .51          .17 

5167 

Pi  13 

7-8 

5  27-969 

83.6 

+  2.  643  1  +  .0005 

+  .OOI 

—  .0003       o 

.13            .50         .18 

5168 

Pulkre  4483 

8-3 

5  3I-382 

92.7 

+  2.  6466  +.OOO4 

+  .OOI 

+  .0036—    I 

.14      i.io      .24 

5i69 

Br  2579 

7.0 

5  3!-86o 

77-3 

+  2.  6470+.  0004 

+  .OOI 

+  .0039       o 

.10        .27       .13 

5170 

Br  2582 

5-o 

5  42-77° 

72.9 

+  2.22(>9+.OOl6 

+  .OO2 

—  .0004       o 

.08      .38    .16 

5i7i 

0  Aquilae 

3-2 

6    8.746 

74-6 

+  3.0967—  .0042 

—  .001 

+  .O02I          0 

.03      .18     .07 

5172 

Pi  12 

7-5 

6  10.717 

72.2 

+  3.0814—  .0040 

—  .OOI 

+  .0007       o 

.16        .63      .29 

5173 

Br  2583 

5-6 

6  22.988 

52.1 

+  2.5O2I  +  .OOI2 

+  .OO2 

.0000      o 

.15      .46     .31 

5174 

Br  2575 

6.8 

6  25.434 

63-9 

+  3.3276-  .008I 

-.003 

—  .0010       o 

.12           .44        .23 

5175 

L8367 

6.0 

6  44.203 

91.6 

+  4.5702-.  0452 

-.023 

+  .0026+   I 

.20         I.O4        .27 

5176 

Br  2577 

6.2 

651.590 

65-7 

+  3-3457-  -o°8i 

-.003 

+  .0128+  I 

.10        .34      .18 

5177 

Br  2585 

5-9 

7  37-247 

72.7 

+  2.  5069+.  OOI3 

+  .O02 

+  .0005       o 

.10        .38      .17 

5178 

Br  2588 

6.0 

7  49.070 

65-7 

+  2.5I46  +  .OOI2 

+  .O02 

—  .0003       o 

.11      .51     .25 

5179 

Br  2584 

5-7 

8    4.051 

62.4 

+3.  0994-  .0043 

—  .001 

+  .OOI2         O 

.15      .39     .24 

5180 

Pi  29 

5-9 

9    3-169 

81.7 

+  3-7497-  -0159 

—  .OO6 

+.0933-  I 

.08       .50     .16 

Si8i 

L8386 

6-7 

9  37-946 

78.4 

+  3-7353-  -0177 

-.007 

+  .0034      o 

.10        .66      .23 

5182 

p  Aquilae 

S-o 

9  38-982 

70.9 

+  2-7759-  -00°5 

+  .001 

+  .0036       o 

.07        .28      .13 

5183 

Groomb  3087 

6-5 

9  44-838 

64.4 

+  1.6706—  .0016 

—  .OOI 

—  .0007       o 

.11        .52      .27 

5184 

Br  2610 

5-9 

9  56-721 

70.3 

+0.9908—  .0142 

—  .010 

+  .0188       o 

.10            .46         .21 

5185 

Br  2594 

5-4 

10    7.974 

66.5 

+  2.4638  +  .0015 

+  .OO2 

+  .0005       o 

.14            -57         .28 

5186 

ol  Cygni 

4-9 

10    9.448 

68.4 

+  1.8860  +.0004 

+  .OO2 

+  .0014       o 

.09            .44         .20 

5187 

o2  Cygni 

3-9 

10  28.958 

73-6 

+  1.8889  +.0004 

+  .002 

+  .0002       o 

.04            .27         .11 

5188 

Br  2598 

5-° 

10  47-333 

78.6 

+  2.2455  +  .ooi7 

+  .003 

+  .0054       o 

.08            .32         .12 

5189 

Br  2589 

6.8 

10  50.645 

58.2 

+  3.3248-  .0083 

—  .003 

+  .0002       o 

.13            .38         .24 

5190 

Pulkw  2920 

4-9 

ii    1.618 

87.0 

+  2-54I2  +  .OOI2 

+  .002 

—  .0002       o 

.12            .57         .18 

5191 

Br  2611 

4-4 

ii    4.405 

75-6 

+  1.3970-  .0058 

-.003 

+  .0073-  I 

.06            .24         .IO 

5192 

Br  2596 

5-5 

ii  11.063 

88.4 

+  2.  5901  +  .0009 

+  .O02 

—  .0007       o 

.13        .44      -16 

5193 

Pulkw  2925 

6.0 

ii  30.752 

91.7 

+  2.3279+.  OO20 

+  .003 

—  .0036+  I 

.13        .66      .18 

5194 

Br  2615 

6.2 

"  37-415 

76.6 

+  I.IO85—  .OII4 

—  .OO7 

+  .0061—    I 

.10        .42      .17 

5195 

Br  2602 

4.8 

"  37-479 

76.5 

+  2.  4849  +.00  1  4 

+  .OO2 

-.0032      o 

.09        .40      .16 

5196 

Br  2600 

6-3 

ii  56.127 

83.6 

+  2.  6355  +.0007 

+  .OO2 

+  .0001       o 

.13        .39      .16 

5197 

a1  Capricorn! 

4-5 

12    6.353 

67.2 

+  3-3  283  -.0085 

-.003 

+  .OOIO         0 

.03        .15      .07 

5198 

Br  2591 

6.1 

12      8.942 

81.0 

+  3-5300-  .0128 

—  .OO4 

+  .0023       o 

.08        .38      .13 

5199 

K  Cephei 

4-4 

12  15.767 

73-7 

-1.9388-.  1676 

-•139 

+Too38-   2 

.03            .20         .08 

5200 

Br  2612 

4.2 

2O   12    22.854 

65.6 

+  I.8549+.OOOI 

+  .OOI 

+  .0005       o 

.10        .38      .19 

5166 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


209 


No. 

Decl.  i  goo 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H-'  and  i  oo  AH' 

Prob.  Errors. 
SEp.  loop.'  Sio 

Remarks. 

5151 

or           ft 

+  1942    15-33 

72.8 

//                      ft 

+  IO.I58+.33I 

// 

-.07 

it 

+  .080       o 

//         //         // 
.10      .30    .15 

5152 

+  64  21      6.89 

69.2 

+  IO.I26+.O82 

-•05 

+  .OIO+    I 

.09      .27    .14 

65  Draconis 

5153 

+  67  35  18.02 

62.6 

+  I0.250+.032 

-.07 

+  .048      o 

.05      .18    .10 

5154 

+  76   12      8.84 

65-5 

+  10.152—  .208 

-.29 

-•055-  I 

.08      .25    .13 

69  Draconis 

5155 

-19    5  3S-36 

79-o 

+  10.205  +  .432 

—  .14 

-.003       o 

.12        .57      .21 

5156 

+  23  1933-47 

70.1 

+  io.2i6+.3i9 

-.06 

-  .003      o 

.06        .30     .14 

17  Vulpeculae 

5157 

+  35  4i  48.35 

68.8 

+  9.785  +  .272 

-•05 

-.438-     2 

.07         .26     .13 

27  Cygni  6l 

5158 

-   7    3    2.44 

91.2 

+  io.2i6+.399 

—  .11 

—  .017       o 

.08        .69     .15 

5159 

-  o  57  57-99 

67.9 

+  IO.I7I  +  .385 

—  .10 

—  .069+   I 

•09      -35    -17 

64  Aquilae 

5160 

-10  21    7.93 

69.0 

+  io.2i6+.4O7 

—  .12 

-  .038      o 

.12         .51      .24 

5161 

+  56    3    7-i3 

68.2 

+  10.334  +  .  166 

-•03 

+  .078       o 

.09        .45      .21 

5162 

+  63  36    8.04 

64.2 

+  10.332  +  .091 

-•05 

+  .046       o 

.12         .39      .22 

S  2640.  IOM  5"  21°,  v.  slow 

5163 

+  52  52  11.54 

73-9 

+  10.547  +  .  196 

-•03 

+  •252+   3 

.08         .40      .l6 

51/54 

-2053    2.23 

73-4 

+  I0.222  +  .435 

-.14 

—  .081       o 

.14         .56      .25 

5i65 

+  61  42  18.28 

57-8 

+  10.394+.  118 

-.04 

+  .072+     2 

.06         .19      .12 

66  Draconis 

5166 

-36  21      8.80 

78.4 

+  8.807  +  493 

-.19 

-I-565  +  5 

.09         .51      .19 

279  G  Sagittarii  * 

5i67 

+  2036  7.31 

80.4 

+  I0.425  +  .324 

-.07 

—  .OIO         0 

.11         .54      .19 

S  2637.     78"  224°  AB 

5168 

+  20  37  13.80 

87.4 

+  IO-55I  +  .325 

-.07 

+  .112         O 

.13      I.O2      .27 

S  2637.     12"  328°  AC 

5i69 

+  2037    3.92 

69.1 

+  I0.535  +  -326 

-.07 

+  .096      o 

.08         .25      .13 

i7Sagittae(0')  A 

5170 

+  36  32  41.97 

70.4 

+  10.462  +  .  272 

-•05 

+  .009      o 

.07         .31      .14 

28  Cygni  b* 

5171 

-    i    7    5-73 

75-5 

+  10.488  +  .  381 

—  .10 

+  .003      o 

.03         .18      .07 

5172 

—   o  25  20.04 

65-7 

+  I0.475  +  -378 

—  .IO 

-.013       o 

.11         .40      .21 

W.H.8M5s"2o6° 

5173 

+  26  36  26.53 

55-o 

+  10.496  +  .306 

-.06 

—  .007       o 

.11         .49      .29 

1  8  Vulpeculae 

5174 

—  12  41    22.56 

64.0 

+  10.482  +  .409 

-•13 

—  .024      o 

.IO         .38      .20 

i  Capricorn!  £* 

5175 

-52  44  40.58 

84-5 

+  10.479  +  .  563 

-•3° 

-  .050      o 

.15         .65      .22 

81  G  Telescopii 

5176 

-12  54  38.10 

72.2 

+  10-345  +  .41  2 

-•13 

-.193+     2 

.08         .35      .16 

2  Capricorn!  £2 

5177 

+  263037.75 

7i-3 

+  I0.576+.  306 

-.06 

—  .019      o 

.08         .34      .l6 

19  Vulpeculas 

5178 

+  26  10  47.80 

62.6 

+  IO-594+.  307 

-.06 

—  .016      o 

.11         .51      .27 

20  Vulpeculae 

5179 

-    i  18  32.75 

64.2 

+  I0.604+.  378 

—  .10 

—  .024      o 

.11         .40      .21 

66  Aquilae 

5180 

-27  1953.66 

82.5 

+  I0.509+.  470 

-.16 

—  .192  +  12 

.09         .50      .l6 

5  G  Capricorni 

5i8i 

-30  1837.84 

78.0 

+  10.731  +  .456 

-•17 

—  .013      o 

.11         .80      .28 

282  G  Sagittarii 

5182 

+  145333-7° 

69-5 

+  I0.796+-337 

-.07 

+  .051      o 

.06        .26     .12 

5183 

+  5i    9  44-50 

65-5 

+  10.  728  +  .  201 

-.04 

—  .024       o 

.10      .47    .23 

Clark.     IIM  4"  81° 

5184 

+  61  4632.38 

63-7 

+  IO.847  +  .I2O 

—  .04 

+  .080+    2 

.08         .29      .l6 

68  Draconis 

5i85 

+  28  23  29.82 

63.2 

+  10.756+.  298 

-.06 

-  .025       o 

.12         .52      .27 

21  Vulpeculae 

5186 

+  46  30  46.45 

64-5 

+  10.774+.  227 

-.04 

—  .009       o 

.07         .27      .14 

Br  2601.    30  Cygni 

5i87 

+  46  26  16.25 

73-4 

+  10.808+.  227 

-.04 

+  .OOI          O 

.04        .20     .08 

S  App.     107"  174° 

5188 

+  36  29  59.04 

72-5 

+  10.897  +  .  272 

-•°5 

+  .068+  I 

.07         .27      .12 

29  Cygni  b3 

5189 

-12  3835-96 

66.1 

+  io.8i8+.4O4 

-•13 

-.015      o 

.12         .39      .21 

3  Capricorni 

5190 

+  25   17   11.29 

81.2 

+  10.845  +  .307 

-.07 

—  .002       o 

.10      .47    .17 

£983.   ioM  i"  151° 

5191 

+  56  I542-07 

66.7 

+  io.932  +  .i68 

-•03 

+.082+  I 

.06        .20     .IO 

33  Cygni 

5192 

+  23  12  10.86 

79-° 

+  I0.845  +  .3I3 

-.07 

-.013       o 

.12         .35      .16 

22  Vulpeculae 

5193 

+  33  25  33-6i 

86.6 

+  10.758  +  .  281 

-•05 

—  .124      o 

.12         .51      .17 

5194 

+  60  20      4.57 

75-i 

+  10.948  +  .  132 

-.04 

+.057+  I 

.10      .36    .16 

5195 

+  27  30  26.13 

74.1 

+  10.897  +  .299 

-.06 

+  .006      o 

-07       -33     -J4 

23  Vulpeculas 

5196 

+  21   17  29.99 

80.2 

+  io.883  +  .3i8 

-.07 

-.031      o 

.12         .36      .l6 

1  8  Sagittae 

5197 

-1249     2.55 

66.3 

+  10.  932  +  .402 

-•13 

+  .006      o 

.04         .l6      .08 

h  607.    9M  45"  221° 

5198 

-22      7     8.13 

82.7 

+  10.895  +  .427 

-•15 

-  .034      o 

.07        .35      .12 

4  Capricorni 

5199 

+  77  2437.15 

72.8 

+  10.964—  .241 

-.38 

+  .026      o 

.03        .19      .08 

2  2675.    8M  7"  123° 

5200 

+  47  24  24.80 

52.0 

+  10.948  +  .  222 

-.04 

+  .OO2          0 

.IO        .29      .20 

32  Cygni 

210 


PRELIMINARY   GENERAL   CATALOGUE   OF   STARS   FOR   IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

p  and  100  A  p. 

Prob.  Errors. 
a  Ep.     100  n    a  10 

M 

h    m        s 

3                      8 

3 

s 

it                 n             n 

5201 

Br  2606 

5-7 

20  12  30.332 

87.7 

+  2.5668+.ooii 

+  .OO2 

+  .0013       o 

.05        .42      .10 

5202 

a2  Capricorn! 

3-7 

12  30.422 

65.8 

+  3-33l8--oo85 

-.003 

+  .0040      o 

.03       .13     .06 

5203 

Groomb  3110 

6.1 

12  46.128 

71.8 

+  i.  9434  +.0009 

+  .OO2 

+  .OOO2+     I 

.14      .63     .28 

5204 

Br  2620 

7.6 

12  58.811 

71.0 

+  0.7285—  .0213 

-.015 

—  .0049—     2 

.14      .50     .24 

5205 

Br  2613 

5-7 

13  21.792 

71-5 

+  2.I338  +  .OOI7 

+  .OO2 

+  .0002      o 

.10        .42      .19 

5206 

a-  Capricorni 

5-5 

13  37-479 

73-7 

+  3.4663-.  01  15 

—  .OO4 

+  .0004       o 

.08           .27         .12 

5207 

Groomb  3212 

7-i 

13  59.68- 

79-6 

—  8.256-  —  1.061- 

—  .OO8-  +  20 

.IO           .40        .16 

5208 

Br  2614 

5-i 

14    6.031 

79-8 

+    2.  2096+.  OOI9 

+  .OO2 

—  .0010          0 

.09           .38         .15 

5209 

L  8400 

6.7 

14  25-347 

95-4 

+  4.3721—  .0408 

—  .Ol6 

—  .0413+  6 

.l6          1.22          .24 

5210 

Br  2618 

6.2 

14  34-445 

62.7 

+    2.I25I  +  .OOI7 

+  .O02 

+  .0003       o 

.12            .56         .29 

5211 

Br  2617 

5-8 

14  43-801 

59-8 

+  2.2467  +  .OOI9 

+  .OO2 

+  .0029      o 

•20            .54         -33 

5212 

Abo  465 

7-8 

14  43-849 

86.4 

+  3.0912—  .0044 

.OOO 

+  .0002      o 

.10        .46      .15 

5213 

Br  2616 

5-3 

14  48.672 

72.1 

+  2.3045  +  .ooi9 

+  .003 

+  .OOI2          O 

.12             .46         .21 

5214 

v  Capricorni 

4-9 

IS    7-052 

61.0 

+  3-33o8-  -0087 

—  .OO2 

+  .0005      o 

.12            .36         .22 

5215 

Br  2607 

6.7 

IS    9-493 

66.8 

+  3-3749-  -°096 

—  .OO2 

+  .0029       o 

.07            .30         .15 

5216 

/?  Capricorni 

3-2 

15  23.622 

69.7 

+  3-3742--  0096 

—  .OO2 

+  .0024      o 

.04            .20         .09 

5217 

L84iS 

-5-8 

15  40.257 

89.6 

+  4.0897—  .0297 

—  .Oil 

+  .0059+  I 

.13             .96         .24 

5218 

Groomb  3142 

6.2 

IS  56.595 

55-2 

+  1.4840—  .0043 

—  .002 

—  .0008       o 

.16        .68      .40 

5219 

Groomb  3150 

6.2 

16  32.406 

74.2 

+  0.6035-  .0285 

—  .021 

+  .0792       o 

.08        .52      .20 

5220 

Groomb  3140 

6.5 

16  37.741 

65-9 

+  2.i733  +  .ooi9 

+  .OO2 

—  .0007       o 

.10        .56      .27 

5221 

L833i 

6.0 

16  38.905 

76.6 

+  10.2856-  .6305 

—  .OI4 

—  .0082+   5 

.n        .68      .25 

5222 

L  8417 

5-8 

J7    5-332 

87-7 

+  4.0920-  .0305 

—  .on 

—  .0010       o 

.15        .99      .27 

5223 

a  Pavonis 

1.8 

17  44-329 

66.5 

+  4-7738-  -0595 

—  .020 

+  .0005+     2 

.06        .33      .16 

5224 

Br  2622 

5-7 

17  45-428 

56.2 

+  2.5778  +  .ooi2 

+  .OO2 

—  .0009       o 

.13        .44      .27 

5225 

Br  2628 

5-8 

17  56.614 

67.6 

+  1.0069—  .0144 

—  .OIO 

+  .OOII—     I 

•io        -33      .17 

5226 

Pulkjj  2949 

5-5 

18  13.406 

70.0 

+  2.9736-  .0027 

+  .OOI 

—  .0020      o 

.11        .82      .35 

5227 

L  8427 

7-3 

18  34-223 

79.1 

+  3.6926—  .0178 

—  .005 

+  .0007      o 

.10        .57      .20 

5228 

L  8430 

7-3 

18  36.361 

83.8 

+  3.6150-  .0157 

—  .004 

+  .0027       o 

.11        .57      .19 

5229 

y  Cygni 

2.2 

18  38.355 

75-6 

+    2.I52I  +  .OOI9 

+  .OO2 

+  .OOOI         0 

.03            .12          .05 

5230 

Groomb  3151 

5-9 

18  49-546 

69.8 

+  1.9586+.  0009 

+  .OO2 

+  .0032      o 

.13        .66      .30 

5231 

Groomb  3154 

6.3 

19  12.364 

65-4 

+    2.I29O+.OOI9 

+  .OO2 

+  .0008       o 

-15        -63      -32 

5232 

L8433 

6.2 

19  19.546 

86.0 

+  3.6819-  .0177 

-.005 

+  .0009       o 

.10           .75         .21 

5233 

Pi  116 

6.4 

19  31.808 

76.4 

+  3-0583-  -0040 

.OOO 

+  .0002       o 

.14           .57         .24 

5234 

Br  2636 

6.0 

19  39.481 

79-9 

+  0.285  1  -.0388 

-.030 

+  .0035-  I 

.07            .39         .14 

5235 

Br  2625 

4-7 

19  51.994 

77-3 

+    2.3947  +  .0020 

+  .003 

+  .0032      o 

•io        .33      .15 

5236 

Pulka  2957 

6.0 

*9  59-9I7 

89.2 

+    2.2426+.OO2I 

+  .003 

—  .0002      o 

.12            .64        .18 

5237 

L  8438  m 

6-5 

20  24.374 

87.6 

+  3.8974-  .0248 

-.008 

—  .O2O8+    2 

.IO           .64        .17 

5238 

Pulk«  2959 

5-9 

21   15.230 

88.5 

+    2.  6523  +  .OOO8 

+  .O02 

+  .0004      o 

.12            .60         .18 

5239 

L  8360 

6.0 

21  24.752 

79-4 

+  10.4723—  .6892 

+  .106 

-.0057+  7 

.08            .92         .29 

5240 

ir  Capricorni 

5-3 

21  35-879 

75-7 

+    3.4384-  .0116 

-.003 

+  .0007       o 

.04           .22         .09 

5241 

L84S7 

6.9 

22      1.653 

85.6 

+    3.6020-  .0159 

—  .OO4 

+  .0005       o 

.15         1.05         .30 

5242 

Pi  140 

7-o 

22  16.315 

76.0 

+  3.H3I-.0050 

.OOO 

-  .0054       o 

.15        .68      .27 

5243 

L84S3 

6.4 

22  21.841 

82.4 

+  3.8611  —  .0236 

—  .OO7 

+  .0013       o 

.14       .81      .27 

5244 

p  Capricorni 

S-i 

23      9-455 

71.7 

+  3.4266—  .0115 

-.003 

—  .0010       o 

.03            .22          .09 

5245 

Br  2629 

6.2 

23  10-743 

72.1 

+  3-I44i--oos5 

—  .OOI 

+  .0019       o 

.12            .44        .20 

5246 

K  145 

7.2 

23  I7-43I 

73-i 

+  3.4202-.  01  13 

-.003 

+  .0007       o 

.14           .56        .25 

5247 

Br  2627 

7-i 

23  18.088 

71.1 

+  3-43I5--°"4 

-.003 

+  .0028+  I 

.09            .50         .21 

5248 

Pi  146 

6-S 

23  39-357 

79-9 

+  3.5265—  .0140 

-.003 

+  .0009       o 

.09            .45          .l6 

5249 

Br  2634 

5-8 

23  51.962 

68.3 

+     2.2222  +  .OO23 

+  .003 

—  .0016       o 

.12            .52          .25 

5250 

Groomb  3191 

6.7 

20  23  58.613 

54-4 

+     1.4532-.  0051 

-.003 

+  .0027       o 

•13            -51          -31 

5202  h  608.     IIM  8"  149°;  BC: 
5217  h  5190.     13"  30"  307°. 


5215  Barnard.     IIM  i"  105° 
5222  ft  763.    8M  i"  213°. 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


211 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H-'  and  TOO  AH 

Prob.  Errors. 
8Ep.  loop.'  Sio 

Remarks. 

5201 

0             /                 II 

+  24  21  46.21 

81.4 

//                      ft 

+  10.935+    -3°9 

// 

-    -°7 

// 

—  .020      o 

//          //        // 
.06      .31     .11 

24  Vulpeculse 

5202 

-12  51   17.78 

63-6 

+  10.961+   .403 

-    -13 

+  .005       o 

.03       .13     .06 

* 

5203 

+  45   l6  22.02 

66.0 

+  10.917+    .232 

-    .04 

—  .058       o 

•13      -54    -27 

5204 

+  64  27   27.09 

65.6 

+  11.032+   .084 

-    -°5 

+  .042—   I 

•13      -43    -23 

5205 

+40    3  19.20 

70.0 

+  11.006+   .255 

-    -°5 

—  .012          0 

.09      .41    .19 

ft  661.    i2M  13"  66° 

5206 

—  19  25  50.80 

65-7 

+  11.028+    .417 

-    -15 

—  .009      o 

.08      .25    .14 

W.H.    9M56"i78° 

5207 

+  84  22  38.07 

75-2 

+  II.O22—  I.OO9 

—  .042—     I 

.11      .37    .17 

5208 

+37  43  18.33 

77-o 

+  II.o6l+     .264 

-    -°5 

—  .Oil          O 

•09      -35    -IS 

P  Cygni.   Nova  1600? 

5209 

—  50  18  29.40 

92-5 

+  10.837+  -521 

-    .28 

-•258-   5 

.13      .81    .19 

86  G  Telescopii 

5210 

+4025  11.95 

So-9 

+  11.095+  -253 

-    -°5 

—  .on      o 

.12         .39      .26 

S  2666.  8"?4  2'.'8  245° 

5211 

+  36  41    12.12 

57-i 

+  11,147+   -268 

-    .°5 

+  .029       o 

•14         -56      -33 

36  Cygni 

5212 

-  o  57  35-35 

81.0 

+  11.118+   .370 

—    .11 

+  .OOI          0 

.09         .37      .I4 

5213 

+  34  40  12.04 

72.0 

+  11.117+  -275 

-    -°5 

—  .007       o 

.09         .43      .19 

35  Cygni 

5214 

—  13    4  26.08 

61.4 

+  11.129+   -399 

-    -14 

—  .017       o 

.10      .34    .19 

5215 

—  15    6    i.  06 

7i-3 

+  11.151+  .404 

-    -14 

+  .OO2          O 

.08         .34      .15 

5216 

-15    550-36 

71.2 

+  11.167+   -4°4 

-    .14 

+  .OOI          O 

.04         .20      .09 

jS1  Capricorn!  * 

5217 

-42  21  53.32 

86.7 

+  11.082+   .491 

-    -23 

-.104+  I 

.11         .71      .20 

292  G  Sagittarii  K  '  * 

5218 

+  55    5    3-37 

46.2 

+  11.186+   .175 

-    -°3 

—  .020      o 

•i2      -Si    -35 

S  2671.    7I?S  3"  339° 

5219 

+  6631  55.51 

74-7 

+  11.542+   .077 

-    .06 

+  •293+  9 

.08      .45    .18 

5220 

+39.  5  15-55 

61.4 

+  11.236+   .257 

-    -05 

—  .020      o 

.09      .45    .24 

2  2668.    9«?2  3"  288° 

5221 

-81  17  37.20 

78.0 

+  11.249+1.235 

-2.34 

—  .008-  I 

.IO         .60      .22 

47  G  Octantis 

5222 

-42  4438-55 

84.2 

+  11.298+   .488 

-    .24 

+  .009       o 

.13         .77      .24 

294  G  Sagittarii  «2  * 

5223 

-57    3  J9-74 

69.4 

+  11.250+   .569 

-    -36 

-  .086       o 

.06         .32      .14 

5224 

+  24    736.88 

60.  i 

+  11.324+   .305 

-    .07 

-.013       o 

.12        .47      .26 

25  Vulpeculae 

5225 

+  61  56  23.34 

56.1 

+  11.381+   .116 

—    .04 

+  .030      o 

.09        .30     .19 

71  Draconis 

5226 

+  5    i  23.51 

7°-3 

+  11.326+   .352 

—    .10 

-  -045     ° 

•13         -71      -31 

S227 

-29  23  56.96 

79.0 

+  11.338+   .438 

-    .18 

—  .058      o 

.11         .64     .23 

5228 

-26    921.35 

82.3 

+  11.372+   .429 

-    -17 

—  .026       o 

.13        .67      .23 

5229 

+  39  56  10.96 

71.4 

+  11.398+   .253 

-    -°5 

—  .003       o 

.03        .14     .06 

5230 

+  45  28  24.50 

65.0 

+  11.446+   .230 

-    .04 

+  .032      o 

.14        .55      .28 

5231 

+  4042  21.23 

60.2 

+  11.388+   .250 

-    -°5 

-  -053     ° 

.12         .50      .28 

5232 

-2859  15.52 

85-2 

+  11.455+   -436 

-  ^.18 

+  .005       o 

.12         .85      .24 

296  G  Sagittarii 

5233 

+  o  44  40.80 

71.2 

+  11.472+   .361 

—    .11 

+  .007       o 

.10      .35    .17 

S  2677.  10^5  33"  29° 

5234 

+  683337.51 

76-3 

+  11.511+   .030 

-    .08 

+  .037       o 

.07         .28      .12 

5235 

+  31  52    1-54 

72.2 

+  11.487+   .282 

-    .06 

—  .002       o 

.09         .29      .14 

39  Cygni 

5236 

+  37    9  11.90 

85-5 

+  11.495+   -263 

-    -°5 

—  .003       o 

.12         .52      ,l8 

5237 

-37  4335-98 

84-3 

+  11.407+  .457 

—      .21 

—  .120—     2 

.IO         .56      .l8 

297  G  Sagittarii  * 

5238 

+  21    5    0.66 

84-3 

+  11.572+   .310 

-      .08 

—  .016      o 

.12         .50      .l8 

5239 

-81  3736.80 

79-9 

+  11.578+1.239 

-2.51 

—  .021—     I 

.07         .79      .25 

49  G  Octantis 

5240 

—  18  32  22.98 

74-7 

+  11.600+  .404 

~      -15 

—  .013       o 

.05      .25    .10 

Mitchel.    9M  3"  145° 

5241 

—  25  56  11.78 

81-3 

+  11.669+  -423 

-      -17 

+  .026      o 

-14    1-05    -33 

1  8  G  Capricorni 

5242 

-     2  25  49.21 

67-4 

+  11.595+   .364 

—      .11 

—  .066—    I 

.12         .41      .21 

South.     7I?3  60"  190° 

5243 

-35  5532-79 

75-8 

+  11.639+   -453 

—      .20 

—  .028       o 

.14         .73      .29 

2  G  Microscopii 

5244 

-18    839.73 

70.6 

+  11.702+   .400 

-      -15 

—  .022       o 

.04      .25    .10 

W.H.    7I?5  3"  172° 

5245 

-   3  41  17.82 

70.8 

+  11.705+   .367 

—      .12 

—  .020      o 

-09      -35    -1? 

68  Aquilae 

5246 

-1745  56-78 

76.1 

+  11.695+   -399 

~      -IS 

-  .038       o 

•14      -55    -23 

5247 

-18  12  13.81 

72.7 

+  11.604+   -4O1 

-    -15 

—  .130      o 

.10      .47    .20 

5248 

-2243  23.43 

83-2 

+  11.733+   -411 

-  .16 

—  .026      o 

.08      .43    .14 

24  G  Capricorni 

5249 

+  38    641.81 

68.7 

+  11.703+   .257 

-  -05 

—  .071      o 

.09      .39    .18 

40  Cygni 

5250 

+  56  1831.71 

52.0 

+  11.788+   .167 

-  -03 

+  .006      o 

.10      .40    .25 

S  2687.  8™5  26"ii8° 

3237  Russell.     8"Cs  o'.'S  100°. 


212 


PRELIMINARY   GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R,  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

|x  and  100  A  p. 

Prob.  Errors. 
aEp.     ioo(i     aio 

M 

h    m        s 

5                        S 

s 

s 

//            //         // 

5251 

Br  2639 

5-9 

20  23  58.938 

60.7 

+  1.8336         .OOOO 

+  .OOI 

+  .0074       o 

.07        .28      .16 

5252 

Br  2630 

7-3 

24      8.625 

73-5 

+  3.4442—  .OIl8 

-.003 

+  .0015       o 

.12             .42          .19 

5253 

o  Capricorn! 

6.1 

24    9-954 

71.2 

+  3.4437-.  0118 

-.003 

+  .001  1          0 

.11             .34         .17 

5254 

Br  2633 

S-i 

24  25.439 

70.1 

+  3-1373-  -0054 

.000 

+  .0042       o 

.10        .33       .16 

5255 

Br  2637 

4.1 

25  18.579 

77.2 

+  2.4505  +  .0020 

+  .003 

+  .0007       o 

•°7         -33       -13 

5256 

Capes,  4°S9 

6.4 

25  28.200 

83.6 

+  3-3658-  .0102 

—  .002 

—  .0028      o 

.11         .50      .17 

5257 

Br  2635  m 

6.1 

25  3°-675 

55-i 

+  2.8728—  .OOI4 

+  .OOI 

+  .OOII         O 

.14        .48      .30 

5258 

Br  2640 

6.1 

25  3I-SS9 

64.6 

+  2.  2880+.  0023 

+  .003 

+  .0009       o 

.12            .48         .25 

5259 

Pi  177  m 

7.8 

26  25.488 

73-7 

+  2.8638-  .0013 

+  .OOI 

—  .0015      o 

.12        .68      .27 

5260 

Br  2638 

7-3 

26  26.542 

68.9 

+  2.  8653  -.00  1  3 

+  .OOI 

.0000       o 

.12            .51         .24 

5261 

Br  2655 

7-5 

26  45.816 

80.4 

+  0.3651-.  0377 

-.031 

+  .0042       o 

.10        .58      .20 

5262 

Pi  170 

6.4 

2655.191 

74-9 

+  3-5789-  -0157 

-.003 

+  .0007       o 

.08         .48       .19 

5263 

Pi  174 

6.0 

26  55-463 

82.9 

+  3.  2855-.  0082 

—  .001 

+  .0205—    I 

.06      .45     .14 

5264 

Pulkw  2978 

6.0 

26  57-253 

83.1 

+  1.5009—  .0044 

—  .002 

+  .0005      o 

.12            .52          .19 

5265 

a)  Cygni 

5-i 

26  57.697 

60.6 

+  1.85  7  8  +.0004 

+  .001 

+  .0009      o 

.09            .33          .19 

5266 

v  Microscopii 

5-3 

27    2.877 

86.8 

+  4.1389-  .0349 

—  .009 

+  .0013      o 

.18          1.20         .33 

5267 

Br  2643 

6-5 

27  11.315 

77-4 

+  2.2777  +  .0024 

+  .003 

+  .OOOI         0 

.11             .46         .19 

5268 

<£  Pavonis 

4.8 

27  18.059 

86.3 

+  5.0029-  .0771 

-.015 

+  .0071+  3 

.14            .80         .23 

5269 

Pi  199 

6.8 

27  47.760 

61.0 

+  1.8489  +  .0003 

+  .001 

—  .0001       o 

.14            .48         .27 

5270 

0  Cephei 

4-3 

27  54.282 

69.8 

+  1.0140—  .0152 

—  .on 

+  .0066+   I 

.03            .l6         .08 

5271 

Br  2647 

5-6 

28  13.648 

54-2 

+  1.85  1  5  +  .0004 

+  .OOI 

+  .OOIO         O 

.10            .34         .22 

5272 

f  Delphini 

4-1 

28  26.140 

75-8 

+  2.8665—  .0013 

+  .OOI 

+  .0006       o 

.03            .18         .07 

5273 

Pi  187 

6.4 

28  37.741 

75-4 

+  3-3442-.  0099 

—  .002 

+  .0050      o 

.08            .45         .18 

5274 

p  Pavonis 

S-o 

29  12.405 

85.0 

+  5.0678-  .0828 

-.015 

+  .0067+  I 

.14            .78         .24 

5275 

17  Delphini 

5-5 

29  i3-258 

70.9 

+  2.8380—  .0009 

+  .OO2 

+  .0049       o 

.10        .38      .18 

5276 

Groomb  3221 

6-5 

29  19.885 

64.2 

+  1.4679—  .0049 

—  .002 

—  .0025      o 

.14            .57          .29 

5277 

L8435 

6-3 

29  42.021 

84-3 

+  7-5576-  -3031 

+  .027 

+  .0540—  12 

.12            .63          .20 

5278 

Pi  194 

6.4 

29  52.757 

74-4 

+  3.  3994-  .0112 

—  .002 

+  .0054       o 

.11             .46         .20 

5279 

Br  2650 

S-o 

30    0.800 

64.4 

+  2.3323  +  .0025 

+  .003 

—  .0002          O 

.12            .50         .25 

5280 

Br  2673 

6.6 

30  26.617 

75-5 

—  0.2239—  .0677 

—  .061 

—  .0002  +   I 

.06            .32          .12 

5281 

a  Indi 

3-1 

30  32.104 

74-4 

+  4.2369—  .0402 

—  .009 

+  .0039—    I 

.09            .36         .l6 

5282 

f  Delphini 

4-7 

3°  37-985 

61.7 

+  2.8047—  .0005 

+  .003 

+  .0026       o 

.09            .36         .20 

5283 

Groomb  3226 

5-8 

30  38-407 

62.2 

+  1.  9660+.  0014 

+  .003 

+  .0028       o 

•15        -75      -39 

5284 

Br  2649 

5-3 

31  31.214 

80.3 

+  3.  1262-.  0054 

.000 

+  .0005       o 

•07        -39      -X4 

5285 

Br  2646 

7.2 

31  44.801 

69.9 

+  3.3691-.  0106 

—  .002 

+  .0046       o 

.11        .45      .21 

5286 

L  8490 

5-5 

3i  45-751 

83.1 

+  5.0056-  .0772 

—  .012 

+  .0409+  8 

.18        .75      .27 

5287 

Br  2653 

6.6 

31  5I-I49 

61.4 

+  2.57O4+.ooi8 

+  .003 

+  .0014      o 

•15        -52      -30 

5288 

v  Pavonis 

5-4 

32  46.798 

74-5 

+  5.5620—  .1200 

—  .009 

+  .0016       o 

•i5        -57      -25 

5289 

Br  2660 

5-8 

32  48.682 

78.8 

+  2-5586  +  .ooi8 

+  .003 

+  .OOII         O 

.09        .45      .17 

5290 

Br  2682 

5-3 

32  49-873 

80.4 

—  0.7406—  .1021 

—  .102 

+  .OO27+    2 

.04        .26      .09 

5291 

ft  Delphini  m 

3-7 

32  5L59I 

77-o 

+  2.8131—  .0004 

+  .003 

+  .0074      o 

.04        .20      .08 

5292 

<•  Delphini 

5-5 

33    2.101 

57-6 

+  2.8708—  .0012 

+  .002 

+  .0030      o 

•18        -57      -35 

5293 

Br  2701 

7-i 

33    9-253 

79-9 

-3.6044-.  3970 

-•542 

+  .0178+  6 

.06        .39      .13 

5294 

Br  2654 

4-5 

33  10.448 

70.6 

+  3.0998-  .0049 

+  .OOI 

+  .0008       o 

.11        .40      .19 

5295 

Br  2665 

6.6 

33  27-811 

68.2 

+  2.437I  +  .0024 

+  .004 

—  .0001       o 

.10            .39          .20 

5296 

Br  2666 

6.8 

33  28.967 

70.1 

+  2.4344  +  .0024 

+  .004 

—  .0040       o 

.10        .38      .18 

5297 

L  8509 

7-6 

33  28-974 

93-7 

+  3.8509-  .0253 

—  .006 

+  .0065       o 

.13          I.o6         .22 

5298 

T  Capricorni 

5-4 

33  40.912 

71.1 

+  3-3594-  -0106 

—  .001 

+  .0005       o 

.06            .33         .14 

5299 

0  Delphini 

6.1 

34    0.789 

62.1 

+  2.8310—  .0007 

+  .O02 

—  .0006       o 

.12            .50         .27 

5300 

Br  2659 

6.6 

2034    1.114 

76.0 

+  3.1228—  .0054 

.OOO 

.0000      o 

.12            .72          .27 

5257/863.     6"2-8?o  i"  345°. 


5267  Clark.    IIM  2"  159° 


CATALOGUE  OF  6188  STARS  FOR  1 900 


2I3 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'  and  ioo  A  (i' 

Prob.  Errors. 
SEp.  loop.'  819 

Remarks. 

5251 

0           /               // 

+  49    3    5-49 

53-o 

//           // 

+  11.  839+.  212 

•    .04 

// 

+  .057+    I 

>t          //       n 

.06      .24    .15 

43  Cygni  <ol 

5252 

-1855    2.84 

79.0 

+  11.  703  +  .401 

-    -IS 

—  .090      o 

.12         .59      .22 

!W      TT          tt"    iAr\° 

5253 

-18  545!-42 

69.0 

+  H.709+.40I 

-    -i5 

-  .086       o 

.10      .34    .17 

VV  .    £1.        22        240 

5254 

-   3  13    5-82 

71.8 

+  H.792  +  .365 

—      .12 

—  .021       o 

.08         .30      .14 

69  Aquilae 

5255 

+  30    2    4.79 

76.8 

+  H.872  +  .283 

-      .06 

—  .004      o 

.06         .29      .11 

41  Cygni 

5256 

-  15  23  26.34 

82.5 

+  H.827  +  -390 

-      -14 

—  .060      o 

.11          .55      .I9 

27  G  Capricorn! 

5257 

+  103339.27 

60.6 

+  H.895  +  .332 

-      .09 

+  .005       o 

.12         .45      .25 

i  Delphini  * 

5258 

+  36    7  14.40 

69-5 

+  11.883  +  .  264 

-      .°5 

—  .008       o 

.09         .41      .19 

42  Cygni 

S259 

+  1055  22.31 

73-6 

+  11.  948  +  .330 

-      .09 

—  .006      o 

.11         .6l      .25 

1  02  407.  8"s-8^8  o'.'s  214° 

5260 

+  10  55  26.64 

64-3 

+  II-959  +  -33° 

-      .09 

+  .004      o 

.IO         .39      .20 

152690.   71*8  15"  256° 

5261 

+  68  26    2.94 

76.9 

+  11.  990+.  038 

'      -07 

+  .OI2          O 

.09         .44      .17 

5262 

-25  1653.82 

74-8 

+  H.935  +  .4I3 

-      -17 

-  -054      o 

.08         .37      .15 

28  G  Capricorni 

5263 

—  10  ii  40.94 

80.3 

+  12.081  +  .381 

-      -13 

+  .092+     2 

.07         .44      .15 

/3668.   iiMs"26° 

5264 

+  55  43  57-34 

78.6 

+  12.007  +  .  170 

-      -°3 

+  .016      o 

.10      .45    .17 

5265 

+  48  36  54.86 

56.7 

+  II.  996+.  212 

-      .04 

+  .004      o 

.09        .29      .18 

45  Cygni  <o2 

5266 

-44  51  18.18 

83.6 

+  H-957  +  .478 

-      .26 

—  .041      o 

.14        .91      .28 

5267 

+  3635  55-01 

74.8 

+  11.  995  +  .  261 

-      -°5 

-.013      o 

.10      .43    .18 

44  Cygni  * 

5268 

-6055    6.17 

84.1 

+  n.848  +  .579 

-    -43 

-.168+  I 

.11       .64    .20 

L846i.  i04GPav<£1 

5269 

+  48  52  33.23 

53-i 

+  12.  045  +  .  210 

-    .04 

—  .005       o 

.12         .45      .28 

5270 

+  62  39  28.31 

71.0 

+  I2.O40+.  114 

-    .04 

-.018+  I 

.04         .15      .O? 

5271 

+  48  52  57.26 

47-5 

+  I2.044+.  2IO 

•    .04 

—  .036       o 

.09         .29      .20 

46  Cygni  «•* 

5272 

+  105747-51 

77-4 

+  12.069  +  .  328 

-    .09 

—  .026       o 

.03         .20      .07 

5273 

-14    3  53-85 

77-o 

+  i2.i66+.384 

-    -14 

+.058+  I 

.08         .47      .18 

5274 

-61  52  24.55 

83.6 

+  12.  086  +.583 

-    -45 

-.063+  I 

.12         .64      .21 

5275 

+  12  41      4.00 

69.8 

+  I2.I76+-324 

-    .09 

+  .026+   I 

.09         .36      .17 

5276 

+  56  26  24.11 

56.2 

+  12.  153  +  .  165 

-    -°3 

—  .004      o 

.13         .49      .29 

5277 

-7631  49.78 

83-7 

+  I2.I75  +  .876 

—  i.  20 

-.008+  6 

.10      .58    .18 

50  G  Octantis  /a1 

5278 

—  16  52    9.72 

76.6 

+  I2.I72  +  -389 

-    -IS 

-.023+   i 

.11         .49      .20 

5279 

+  34  54  29.27 

65-3 

+  12.  191  +  .  264 

-    -°5 

—  .014      o 

.10         .43      .22 

47  Cygni 

5280 

+  72  ii  34.18 

75-° 

+  12.209—  .031 

-    -13 

—  .025      o 

.07         .27      .12 

Groomb  3241 

5281 

-47  38  24.79 

74-4 

+  12.302  +  .484 

-    .28 

+  .061       o 

.08        .32      .14 

5282 

+  14  1944.47 

S9-6 

+  I2.252  +  -3I9 

-    .09 

+  .004      o 

.09         .37      .21 

5283 

+  46  21       1.58 

Si-7 

+  12.  245+.  222 

-    -°5 

-.003       o 

.15         .67      .42 

5284 

-    2  53  47.26 

74-7 

+  i2.3oi  +  .355 

—      .12 

—  .008       o 

.08         .33      .14 

70  Aquilae 

5285 

-  15  29  38.01 

71-5 

+  12.282  +  .383 

-      -15 

-  .043     ° 

.10      .37    .17 

13  Capricorni  r1 

5286 

-6053    o.n 

81.8 

+  H-753  +  -575 

-    -43 

-•573+  5 

.14         .65      .23 

109  G  Pavonis  ^2 

5287 

+  2532    7-76 

59-3 

+  12.334+.  290 

-    .08 

+  .OO2          0 

.12         .51      .29 

26  Vulpeculae 

5288 

—  67    6  46.84 

77-4 

+  12.380+.  632 

-    -57 

—  .016       o 

.12        .58      .22 

5289 

+  26    649.34 

73-4 

+  12.383  +  .  288 

-    .08 

-.015       o 

•08        .35      .15 

27  Vulpeculae 

5290 

+  74  36  42.81 

78.0 

+  12.386—  .090 

—    .20 

—  .012       o 

.04        .23      .09 

73  Draconis 

5291 

+  14  14  49.48 

73-3 

+  i2.364+-3i8 

-    .09 

-.037+  I 

.04      .23    .10 

* 

5292 

+  11    i  42.12 

54-4 

+  I2.395  +  .324 

—    .10 

—  .018      o 

.14        .51      .32 

5293 

+  81    5  40.27 

75-6 

+  12.427—  .416 

-    .90 

+  .005+     2 

.O?         .38      .15 

5294 

-    i  27  16.84 

73-i 

+  12.398  +  .349 

—      .12 

-.025       o 

-08        .33      .15 

71  Aquilae 

5295 

+  31  13  22.59 

63-4 

+  12.434+.  273 

-      .06 

—  .009       o 

.09        .38     .20 

48  Cygni 

5296 

+31  10  23.19 

66.2 

+  I2-398+.272 

-      .06 

—  .046      o 

.09        .37      .18 

5297 

-3623    1.66 

86.9 

+  I2.4I2  +  .435 

—      .21 

-.032+  I 

-15      1-23      -32 

5298 

—  15  18  20.23 

7i-5 

+  I2.436  +  -378 

-      -IS 

—  .022       o 

.06        .33      .14 

Br  2652.  i4Capr.  r2 

5299 

+  12  57  49.39 

56.2 

+  i2.462  +  .3i8 

-      .09 

—  .018       o 

.11        .47      .28 

5300 

—    2  45  52.80 

76.4 

+  I2-497  +  -351 

-      -13 

+  .016       o 

.11         .51      .20 

5291  ft  151.    4Mo-s1'3  <  i",  binary,  27  yrs.  ±  ;   2  2704.     IIM  38"  330°. 


214 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

HI  and  100  A  p. 

Prob.  Errors. 
aEp.     loop     aio 

M 

h     m          8 

>               s 

s 

s 

«            //          // 

5301 

Br  2664 

4.8 

2034      3.318 

68.7 

+  2.6782  +  .OOIO 

+  .003 

+  .0041       o 

.13         .54       .26 

5302 

L85i7 

5-7 

34    3-542 

87.8 

+  3-775I-.°229 

—  .004 

+  .0031       o 

.12            .98         .25 

S3»3 

Br  2668 

5-i 

34  10-497 

69.4 

+  2.  6l  19+.  OOI5 

+  .003 

—  .0002       o 

.12            .52         .25 

5304 

K  Delphini 

5-3 

34  16.342 

82.2 

+  2.9144—  .0016 

+  .002 

+  .0213       o 

.06           .32         .11 

5305 

Br  2661 

5-5 

34  I7-392 

60.2 

+3.0761—  .0044 

+  .OOI 

+  .0062       o 

.12            .44         .24 

5306 

v  Capricorni 

5-4 

34  21-485 

75-8 

+  3.4I97-.  0122 

—  .002 

—  .0020      o 

.05        .26      .10 

5307 

Br  2667 

6-3 

34  26.641 

69.4 

+  2.7829—  .0001 

+  .003 

—  .0001       o 

.07             .39         .17 

5308 

Br  2704 

5-7 

34  3T-554 

78.1 

-3.5676-.  3968 

-•551 

+  .OI22+    2 

.06            .28         .11 

5309 

Pi  258 

6.0 

34  52.482 

63-7 

+  2.4674+.  0024 

+  .004 

-  -0033       o 

.18            .72         .38 

5310 

o  Delphini 

3-9 

34  59-597 

74-4 

+  2.7865—  .OOOI 

+  .003 

+  .0044       o 

.03            .l6         .06 

S3" 

L  8529 

6.0 

35  "-613 

94-4 

+  3-7304-  -0214 

-.003 

+  .0084       o 

.14         1  .08         .22 

S3" 

Br  2705 

6.2 

35  IS-0?* 

67.6 

-3.  2863-.  3706 

-•499 

+  .0296—31 

.08            .32          .l6 

5313 

Groomb  3248m 

6.2 

35  53-766 

62.2 

+  2.  1945  +  .0027 

+  .004 

+  .OOIO         0 

.15            -72          .38 

53H 

Br  2671 

7-i 

35  55-83° 

77-4 

+  2.7950—  '.OO02 

+  .003 

+  .0066       o 

.13        .86      .31 

5315 

ft  Pavonis 

3-4 

35  57-oi3 

71.6 

+  5.4607-.  1  163 

-.005 

-.0079+  I 

.08      .38     .16 

53i6 

Br  2674 

6.8 

36    0.790 

83.0 

+  2.O23I  +  .OO2I 

+  .003 

+  .0007       o 

.13      .44     .18 

S3I7 

Br  2672 

6.4 

36  35-299 

56.1 

+  2.8089—  .0004 

+  .003 

—  .0007       o 

.13      .38    .24 

S3i8 

ij  Indi 

4-7 

36  41.841 

87.6 

+  4.4271—  .0508 

-.008 

+  -OI53-     I 

.14      .80     .23 

5319 

Br  2675 

5-9 

36  59-649 

78.6 

+  2.  4269+.  OO26 

+  .004 

+  .OOOI          O 

.09        .44      .16 

5320 

a  Cygni 

I.O 

38    1.361 

65.7 

+  2.  044O  +.OO  2  2 

+  .003 

.0000      o 

.03        .11      .06 

5321 

Groomb  3263 

6.2 

38  10.477 

73-2 

+  1.2773—  .0101 

—  .oo'6 

+  .0004—   4 

.10           .51         .21 

5322 

Groomb  3258 

5.8 

38  19-755 

61.9 

+  2.I669+.OO27 

+  .004 

+  .0013       o 

.18           .72         .39 

5323 

8  Delphini 

4-5 

38  47.420 

76.5 

+  2.8OO7—  .OOO2 

+  .003 

—  .0016       o 

.05            .24         .09 

5324 

Radcl  4976 

6.4 

39    5-25- 

79-6 

-  5.631--.  755- 

+  .0128  +  17 

.IO           .72         .24 

5325 

Br  2683 

5-5 

39    7-675 

61.8 

+  1.8498  +.0006 

+  .002 

+  .0006      o 

•13        -57      -3° 

5326 

L854S 

5-8 

39  49-193 

84.0 

+3.9229—  .0295 

—  .004 

+  .0042       o 

.14            .64         .22 

5327 

<r  Pavonis 

5-6 

39  50-303 

77-4 

+5-7461-.  1432 

+  .008 

-.0147+   4 

.11             .62          .23 

5328 

^  Capricorni 

4.2 

40  10.563 

77-9 

+3-5590-  .0167 

—  .002 

—  .0042  +    i 

.06            .27          .IO 

5329 

Br  2677 

6.0 

40  22.207 

82.5 

+3.4844-  .0145 

—  .001 

+  .0015       o 

.08            .38         .I3 

5330 

Br  2680 

5-2 

40  32.825 

74-6 

+  2.  5952  +  .0020 

+  .003 

—  .0026+    I 

.10        .39      .17 

5331 

Br  2687 

4-4 

41  32.025 

72.7 

+  2.  4751  +  .0026 

+  .004 

—  .OOI  I          0 

.11             .40         .l8 

5332 

i  Microscopii 

5-3 

41  42.462 

86.2 

+  4.0826—  .0362 

—  .005 

+  .0156       o 

.14            .70         .22 

5333 

Br  2697 

5-7 

41  56.170 

78.3 

+  0.7612—  .0261 

—  .021 

+  .0038—    I 

.09            .40         .l6 

5334 

•y  *  Delphini 

5-4 

42    0.329 

75-9 

+  2.784I  +  .OOO2 

+  .003 

—  .0014+   I 

.09            .50         .20 

5335 

y2  Delphini 

4-4 

42    1.144 

69-4 

+  2.7832  +  .OOO2 

+  .003 

-.0023+  I 

.05            .28         .13 

5336 

«  Cygni 

2-5 

42    9.893 

77.2 

+  2.  4265  +  .OO28 

+  .004 

+  .0288-  I 

.03             .l6         .06 

5337 

«  Aquarii 

3-8 

42  15.804 

77-6 

+  3.  2  507  -.0084 

.000 

+  .0019       o 

.03            .18         .07 

5338 

Br  2684 

4.6 

42  27.681 

78.7 

+  3.1676—  .0065 

+  .OOI 

—  .0004       o 

.07             .32          .12 

5339 

Pi  298 

7.6 

42  31.660 

81.6 

+  3-5P79--oi52 

—  .002 

+  .0029+  I 

.09            .52          .18 

5340 

{  Indi 

S-o 

42  36-079 

89.8 

+4.1483—  .0400 

—  .004 

+  .0038       o 

.15            .75         .21 

5341 

Yarn  9293 

8.1 

42  44.098 

88.4 

+3.4148-  .0127 

—  .001 

+  .OO2O          O 

.13             .84         .22 

5342 

Dpt  2519 

7-5 

42  45.120 

83.6 

+3.4145-.  0127 

—  .001 

+  .0017       o 

.11             .50         .17 

5343 

Br  2688 

5-7 

42  5i-i33 

80.  i 

+  2.9726—  .0027 

+  .OO2 

+  .0003       o 

.09            .34         .14 

5344 

Pi  332 

4.6 

42  52-203 

83-9 

+  1.4910—  .0040 

—  .002 

-.0083+  3 

.06        .32       .10 

5345 

T  Cygni 

Var. 

43  "-258 

90.4 

+2.3934+.  0031 

+  .004 

+  .0036      o 

.12             .69         .l8 

5346 

17  Cephei 

3-5 

43  15-390 

67.3 

+  1.2268—  .0145 

-.008 

+  .0135-16 

.03             .15         .07 

5347 

L  8550  » 

6-7 

43  17-574 

85-4 

+5.0477-.  0920 

.OOO 

+  .0076       o 

.18            .8l          .27 

5348 

L8sso» 

6.7 

43  18.040 

85-7 

+5.0477-.  0920 

.OOO 

+  .0076       o 

.18            .8l          .27 

5349 

P'  305 

5-9 

43  21.435 

82.8 

+3-5689-  .0174 

—  .OO2 

-f  .ooof      o 

.13            .64         .22 

5350 

X  Cygni  m 

4-7 

20  43  30.770 

78.0 

+  2-335I  +  -oo32 

+  .004 

+  .0003       o 

.05             .24         .09 

5313  OS  410.    61I9-7»|'2  o'.'6  18°;  8"»  69"  70°. 
5331  2  2726.    9M  6"  62°. 


531922716-    8"  3"  48°. 
5343  ft  65.    9"  i'.'4  188°. 


CATALOGUE   OF   6 1 88   STARS  FOR    1900 


2I5 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'  and  100  A  ji' 

Prob.  Errors. 
SEp.  loop'  Sio 

Remarks. 

5301 

o        /           // 

+  20  50  59.85 

69.0 

/'          a 

+  12.  482  +  .  301 

tt 

-.09 

// 

—  .001          0 

.11         .46      .22 

29  Vulpeculae 

5302 

-3347    8-77 

86.8 

+  12.  490  +.426 

—  .21 

+  .007       o 

•12    1-34    -33 

13  G  Microscopii 

5303 

+  2345  53-6i 

62.2 

+  12.480+.  292 

-.08 

—  .Oil          0 

.11      .42    .23 

28  Vulpeculse 

5304 

+  944    i-73 

76.8 

+  i2.5io+.329 

—  .10 

+  .012+     2 

.06      .28    .11 

02533.  "Mio"ii°,rel.mot. 

5305 

+  08    4.96 

61.4 

+  12.  484  +.346 

—  .12 

-.015+     I 

•°9      -33    -19 

i  Aquarii 

53<>6 

—  18  29  27.27 

72-3 

+  12.  483  +  .384 

-.16 

—  .021       o 

.06         .27      .12 

5307 

+  15  29  11.93 

71.0 

+  I2.485  +  .3I2 

-.09 

—  .025       o 

.07         .39      .17 

5308 

+  81    4  49.93 

73-8 

+  12.528—  .410 

-.89 

+  .013+  I 

.05       .24    .10 

75  Draconis 

5309 

+  29  59    0.89 

63.8 

+  i2.46o+.275 

-.07 

-  .079       o 

.17         .77      .40 

5310 

+  i53332-65 

68.6 

+  I2.539+-3I2 

-.09 

—  .008       o 

.04         .18      .08 

53" 

-3i  57    5-i8 

92.0 

+  I2.505  +  .4I9 

—  .21 

-.056+  I 

.15      1.  12      .25 

170  Microscopii 

S3" 

+  80  44  29.48 

63.0 

+  I2.78I--375 

-.8l 

+  .216+   3 

.08         .27      .15 

74  Draconis 

5313 

+  40  13  32.16 

59-4 

+  12.595  +  .  243 

--•°5 

—  .014      o 

•13         -58      .32 

* 

5314 

+  15  17  13.83 

75-3 

+  I2.657  +  .3I2 

-.09 

+  .046+  I 

.12         .69      .27 

5315 

-6633  44.71 

73-6 

+  i2.625  +  .6i3 

-•56 

+  .013-  I 

•°7      -37    -IS 

S3i6 

+  45  18  47.19 

79-5 

+  I2.6II+.224 

-•°5 

—  .006       o 

.12         .40     .17 

5317 

+  14  1336.56 

62.3 

+  12.  650+.  312 

-.09 

—  .006       o 

.12         .47      .25 

10  Delphini 

53i8 

—  52  16  40.90 

83-3 

+  i2.6i5  +  -497 

-•32 

-.048+     2 

.11         .56      .19 

5319 

+  3i  57    4-94 

70.7 

+  12.665  +  .268 

-.07 

—  .018       o 

.08         .30      .14 

49  Cygni  * 

5320 

+  4455  22.17 

64.8 

+  12.  752  +  .  224 

~-°5 

—  .001       o 

.02         .10      .05 

5321 

+  60    8  36.65 

72.8 

+  I2-949+.  138 

-.04 

+  .186       o 

.09         .44      .19 

5322 

+  41  21  31.23 

61.2 

+  I2.783  +  .238 

-•OS 

+  .009       o 

•15      -57    -32 

5323 

+  1442  56.27 

77.1 

+  i2.754+-3°8 

-.09 

-.051       o 

.04      .25    .09 

5324 

+  83  16  44.22 

69.7 

+  12.  798-  .635 

—  .026+     2 

•ii      -75    -32 

5325 

+  49  58  50.64 

46.6 

+  I2.827  +  .  2O2 

-.04 

.000      o 

.12         .36      .26 

51  Cygni 

5326 

-3933  43-84 

83-9 

+  12.850+.  433 

-.24 

—  .024      o 

.13         .6l      .21 

5327 

—  69    8  29.69 

81.0 

+  I2.824+.635 

-.66 

—  .05  1  —     2 

.IO         .56      .19 

5328 

-  25  37  49-49 

76.6 

+  I2-739+-391 

-.18 

-.159       o 

.06         .27      .11 

5329 

-2i  52  39.49 

86.1 

+  12.894+.  383 

-•I? 

—  .016      o 

.08         .37      .12 

17  Capricorni 

5330 

+  245445.24 

73-2 

+  12.  740+.  283 

-.08 

-.182       o 

.08         .36      .16 

30  Vulpeculae 

5331 

+  3021  15.79 

63.0 

+  I3-OII  +  .  269 

-.07 

+  .023       o 

.08         .31      .17 

52  Cygni  * 

5332 

-44  21  10.34 

83-7 

+  12.903  +  449 

-.27 

—  .097+     2 

.12         .58      .19 

5333 

+  66  17  37.92 

7i-3 

+  I3.059+.079 

-•°5 

+  .044      o 

.08         .31      .15 

4  Cephei 

5334 
5335 

+  15  45  49-59 
+  I5  45  49-3° 

76.7 
69.2 

+  12.826  +  .303 
+  i2.8i7  +  .302 

-.09 
-.09 

-.194       o 
—  .204      o 

.09         -SI      .19 
.05         .26      .12 

122727.  n"27i° 

5336 

+33  35  43-67 

70.9 

+  I3-352  +  .267 

-.06 

+  .322+  3 

.04         .17      .08 

£676.  nM  39"  304°,  rel.  mot. 

5337 

-   9  Si  43-iS 

75-i 

+  13.003  +  .354 

-.14 

-  .034      o 

.04         .19      .08 

5338 

-   5  23  38.39 

77-2 

+  i3.oii  +  .345 

-•J3 

-  -039       o 

.O6         .28      .11 

3  Aquarii 

5339 

-23    6  13.97 

82.6 

+  12.884+.  383 

-.18 

—  .170      o 

.10      .55    .18 

5340 

-  46  35  48.47 

83-9 

+  I3-07I  +  .454 

-.28 

+  .OI2          O 

.13         .58      .20 

5341 
5342 

-1834    4.57 
-1834  11.27 

87.2 

72.7 

+  13.050+.  372 
+  13.066+.  372 

-.16 
-.16 

—  .018      o 
-.003      o 

.14         .90      .25 
.12         .43      .20 

Jh  2996.    16"  295° 

5343 

+  5  38  26.96 

76.9 

+  13.081  +  .323 

—  .11 

+  .005       o 

.08         .30      .13 

13  Delphini  * 

5344 

+  57  13  14.70 

74-9 

+  12.845  +  -158 

-.04 

-.232-  I 

.06         .30      .12 

5345 

+  34    o  23.45 

88.2 

+  13.108+.  259 

-.06 

+  .OIO         O 

.11         .71      .19 

Bruss  9083.    51*5  to  6" 

5346 

+  61  27    0.99 

66.1 

+  13.923  +  .  131 

-.04 

+  .820+     2 

.03         .13      .07 

5347 

-62  47  58.93 

80.0 

+  13.062  +  .  552 

-•47 

-.043+     I 

.16      .86    .30 

1  114  G  Pavonis  * 

5348 

-6247  58.93 

80.0 

+  13.066+.  552 

-•47 

—  .O4O+     I 

.16      .86    .30 

I  115  G  Pavonis  * 

5349 

—  26    9    1.61 

80.0 

+  13.079+.  388 

-.19 

—  .030      o 

.13         .59      .22 

526  Capricorni 

5350 

+  36    7  22.75 

72.3 

+  I3.I09+.252 

-.06 

—  .OI  I         O 

.06         .25      .11 

OS  413.    5*>o-6M3  o'/7  65°,  slow 

5347-8  RUmker.    a'/s  95°- 


2l6 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

jiand  100  Ap 

Prob.  Errors. 
oEp.  ioo|i  a  10 

M 

h  m    s 

s      s 

s 

s 

//     //    // 

53SI 

Pi  310 

6.6 

20  43  40.241 

68.2 

+  3.4084—  .0126 

—  .001 

.0000   o 

.13    .54   .26 

5352 

a  Microscopii 

5-o 

43  43-4i6 

80.4 

+  3-7574-  -0240 

-.003 

+  .0002    0 

.11    .51   .19 

5353 

Pi  312 

7-4 

44  5-692 

81.7 

+  3.6031—  .0186 

—  .001 

+  .0005   o 

.13    .69   .23 

5354 

t  Indi 

5-3 

44  16-413 

86.0 

+  4.3616-  .0512 

—  .004 

+  .0005   o 

.14   .68   .21 

5355 

Arg  N  21126 

5-9 

44  3J-743 

94-7 

+  I-9772  +  .OO2O 

+  .003 

+  .OO20    0 

.13   1.04   .20 

5356 

1,8582 

5-8 

44  35-505 

83.8 

+  3.8659-  .0284 

-.003 

—  .0008   o 

.16   .75   .26 

5357 

L  8590 

7.0 

44  36-570 

81.6 

+  3-5434-  -0168 

—  .001 

-.0057+  I 

.12     .82    .26 

5358 

Br  2693 

6.1 

44  51.860 

75-6 

+  2.8597—  .0009 

+  .003 

+  .0042   o 

.10   .32   .15 

5359 

Br  2691 

6-3 

44  54-13° 

61.2 

+  2.9417—  .0022 

+  .OO2 

+  .0015   o 

•15  -58  .32 

536o 

Pi  325 

6-3 

45  11.088 

78.9 

+  3.3109—  .0098 

.OOO 

+  .0083   o 

.09   .50  .18 

536i 

Br  2699 

5-2 

45  S1-^0 

74-7 

+  2.0435  +  .  0025 

+  .004 

+  .0003   o 

.09   .30  .14 

5362 

Dpt  2428 

6.7 

45  41.628 

76-9 

+  1.8130+  .0004 

+  .003 

+  .0023   o 

.11    .72   .26 

5363 

o)  Capricorni 

4.1 

45  51-292 

77-8 

+  3.5885-.  0184 

—  .OOI 

—  .0006   o 

•07   -36  .14 

5364 

Br  2694  m 

6.1 

46  7.612 

66.3 

+  3.1835-.  0068 

+  .001 

+  .0060   o 

.11   .46  .23 

5365 

Br  2702 

5-i 

463!  -763 

71.8 

+  2.  1298+.  OO29 

+  .004 

+  .0114   o 

.08   .27  .13 

5366 

Br  2695 

5-7 

46  51.432 

60.8 

+  3.1744—  .OO68 

+  .OOI 

—  .0007   o 

•13   -44   -25 

5367 

/SIndi 

3-6 

46  59-787 

75-i 

+  4.7223-.  0734 

.000 

+  .0015   o 

.11     .48    .20 

5368 

Pi  339 

6.6 

47  9-340 

81.0 

+  3.  5260-  .0163 

—  .OOI 

+  .0067   o 

.09     .52    .l8 

5369 

L  8606 

5-6 

47  9-893 

87.6 

+  3.9179-  .0308 

—  .002 

+  .0040+  I 

.12     .82    .22 

5370 

T  Vulpeculse 

Var. 

47  13-S1^ 

75-3 

+  2.5459+.  0026 

+  .004 

+  .0005   o 

.16     .78    .32 

5371 

/*  Aquarii 

4-8 

47  15-651 

75-9 

+  3.  2390-  .0083 

+  .OOI 

+  .0025   o 

.04     .20    .08 

5372 

Pi  351 

6-7 

47  37-447 

70.4 

+  3.2866—  .0095 

+  .001 

+  .0037   o 

.11     .50    .23 

5373 

Br  2703 

4.8 

47  50-8i3 

75-7 

+  2.  5664+.  OO24 

+  .004 

—  .0056   o 

.10    .32   .15 

5374 

Br  2700 

6.1 

49  8.869 

73-8 

+  3-3956—  .0128 

.000 

—  .0038   o 

.08     .30    .13 

5375 

Br  2710 

4.8 

49  42.577 

59-2 

+  2.I2IO+.O032 

+  .004 

+  .0016   o 

.09     .38    .21 

5376 

Groomb  3319 

5-7 

49  49.026 

62.5 

+  2.  095  5  +  .003  1 

+  .004 

+  .0024   o 

.14     .64    .34 

5377 

Br  2754 

5-9 

49  50.600 

80.4 

-4.0729-  .5375 

-.990 

+  .0163+  I 

.04     .24    .08 

5378 

Harv"  1009 

5-9 

49  50.796 

91.2 

+  2.4301  +  .0032 

+  .004 

—  .0006   o 

.11    .86   .19 

5379 

Br  2709 

5-3 

50  17.849 

76.8 

+  2.5554+.  0026 

+  .004 

—  .0007   o 

.03   .20   .07 

538o 

Br  2712 

7.8 

50  21.051 

65.8 

+  2.  1234+.  0032 

+  .004 

+  .0015   o 

•13    -50   -25 

538i 

Pi  391 

7-4 

50  26.885 

68.4 

+  I.7I43—  .0013 

.000 

+  .OO24—  2 

.08   .33   .16 

5382 

Pi  376 

6.2 

50  40.298 

62.7 

+  3.0053-  .0032 

+  .OO2 

+  .0043   o 

.12     .54    .28 

5383 

Pi  370 

6.0 

50  50-877 

79-3 

+  3.  5724-  .0182 

.OOO 

+  .0066   o 

.11     .56    .20 

5384 

Br  2707 

5-6 

50  52.306 

69.0 

+  2.8632—  .OOO8 

+  .003 

+  .0029   o 

.IO     .44    .21 

5385 

Br  2708 

5-4 

50  52.610 

60.5 

+  2.8404—  .OOO4 

+  .003 

+  .0009   o 

.13     .44    .25 

5386 

Br  2706 

5-8 

51  29.768 

60.5 

+  3.2455-  .0087 

+  .OOI 

—  .0010   o 

.13     .38    .22 

5387 

Pi  386 

6.1 

52  4.809 

79-6 

+  3-3643-  -OII9 

.000 

+  .0040   o 

.IO     .60    .21 

5388 

Br  2749 

5-7 

52  8.079 

73-8 

—  2.5800—  .3166 

-.502 

—  .OIOI+  I 

.04     .22    .09 

5389 

Br  2720 

5-9 

52  27.213 

75-8 

+  2.  025  1  +  .OO28 

+  .004 

+  .0002    O 

.IO     .44    .l8 

5390 

o  Octantis 

5-3 

52  36-493 

76-7 

+  7-4332--350I 

+  .206 

—  .0028+37 

.07     .52    .19 

5391 

L  8624 

6.0 

53  i4-76i 

93-3 

+  4.2920—  .0519 

—  .001 

—  .0098—  I 

.16   .88   .22 

5392 

Groomb  3341 

5-9 

53  15-050 

79-8 

+  1.9026+.  0018 

+  .003 

+  .0034   o 

.13     .62    .23 

5393 

v  Cygni 

4.0 

53  26.665 

76.8 

+  2.  2346+.  0038 

+  .005 

+  .0004   o 

.03     .18    .07 

5394 

Br  2727 

6-3 

53  36-580 

68.2 

+  1.6063—  .O026 

.000 

+  .OOII    O 

.09     .34    .17 

5395 

Br  2716 

5-6 

53  36-928 

58.0 

+  2.8888-  .0012 

+  .003 

—  .0044   o 

.14     .52    .31 

5396 

L  8630 

6.4 

53  41-044 

9i-3 

+  3.  8002  -.02  73 

—  .OOI 

+  .0092   o 

.13     .87    .21 

5397 

Br  2719 

5-6 

53  48-120 

75-o 

+  2.  6815+.  0017 

+  .004 

.0000   o 

.10    .45   .19 

5398 

Br  2713 

6.4 

53  55-28o 

69.0 

+  3-4I55-  -0136 

.000 

+  .OOI2    O 

.11     .42    .20 

5399 

Br  2717  m 

5-5 

54  4-613 

60.4 

+  2.  9977-  .0031 

+  .OO2 

—  .0084+  I 

.11     .45    .25 

5400 

Br  2715 

6.9 

20  54  25.136 

74-o 

+  3-3OI5--oio4 

+  .OOI 

—  .0021   o 

.11     .42    .19 

5352  h  5224.    9«4  20"  166°. 

5364  2  2729.     6M4-7M7  <  i",  binary. 


5361  h  1581.     nM2i"i74° 
5368  h  3003.    9M2"2i7°. 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


217 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

H'  and  too  AH' 

Prob.  Errors. 
SEp.  looji'  810 

Remarks. 

5351 

0             /                 // 

—  18  24  17.78 

71.6 

//                      tt 

+  I3-°95  +  -37° 

// 

-     -17 

-  -035       o 

//         //        it 

.12         .51      .23 

5352 

-34    8S9-47 

73-4 

+  13.095  +  .408 

—      .22 

-  -039      o 

.11         .51      .22 

27  G  Microscopii  * 

5353 

-27  44  16.24 

78.0 

+  I3.I26+-39I 

-      .I9 

-.032       o 

.12         .56      .22 

h  5226.    9"  19"  67° 

5354 

-51  58  50.52 

84.1 

+  I3.I33  +  .474 

-      -32 

-  .037       o 

.11         .56      .18 

5355 

+  47  27  46.94 

96.6 

+  13.  173  +  .  212 

-      -05 

—  .014      o 

.12         .99      .l8 

5356 

-38  17    6.82 

84.6 

+  I3-I64+.4I9 

-      -23 

—  .027      o 

.14         .69      .22 

28  G  Microscopii 

5357 

—  25   21      6.58 

77-2 

+  13.067  +  .383 

-      .18 

-.125-  I 

.12         .77      .28 

54  G  Capricorni 

5358 

+  12   IO  l6.I5 

73-4 

+  I3-3°5  +  -3°8 

—      .IO 

+  .096       o 

.09         .31      .15 

15  Delphini 

5359 

+     7   293I-79 

57-7 

+  I3.2i7  +  .3i7 

—      .11 

+  .006      o 

-14         -55      -32 

14  Delphini 

536o 

-12  54  55.78 

80.4 

+  i3.iS8  +  .358 

~      -IS 

—  .072+  I 

.08         .51      .17 

536i 

+  45  4434-58 

73-2 

+  13.  249+.  218 

-      -05 

—  .004      o 

.09         .26      .13 

55  Cygni  * 

5362 

+  51   32   21.02 

68.4 

+  13.274+.  193 

-      .04 

+  .011          0 

.10         .46      .22 

S  2732.  8?7  4"  74° 

5363 

-27  i?  35-99 

80.6 

+  13.  260+.  386 

-      -19 

—  .014       o 

.07         .39      .14 

5364 

—   6    o    2.44 

64.9 

+  13.  281  +  .342 

-      -13 

—  .011+     I 

.08         .33      .I? 

4  Aquarii  * 

5365 

+  43  40  56.64 

68.1 

+  13.446+.  228 

~      -05 

+.128+  I 

.06         .23      .12 

56  Cygni 

5366 

-   5  52  56.58 

63-7 

+  13-335  +  -340 

-      -13 

—  .004       o 

.11         .39      .21 

5  Aquarii 

5367 

-  58  49  53-05 

79-5 

+  i3-323  +  -5°8 

-      -41 

—  .026      o 

.09         .48      .I? 

5368 

—  24    9  28.72 

81.8 

+  13-303  +  -378 

-      .18 

-.056+  I 

.09         .50      .I? 

58  G  Capricorni  * 

5369 

—  40  ii    2.95 

85-4 

+  13.  264+.  420 

-      -24 

—  .096      o 

.10         .6l      .l8 

33  G  Microscopii 

5370 

+  27  52  31.63 

67.9 

+  I3-35I  +  -27i 

-      .08 

-.013       o 

-15         -63      -30 

PulkM  3038.  5?5  to  6?5 

5371 

-   9  21  31.37 

71.8 

+  13.331  +  .346 

-      -14 

-  -035       o 

.04         .19      .08 

5372 

-ii  57    6.56 

75-8 

+  i3.429  +  .35i 

-      -15 

+  .039      o 

.11         .51      .21 

5373 

+  2643  20.57 

75-6 

+  I3-333  +  -272 

-      .08 

—  .071—    I 

.08         .30      .13 

31  Vulpecute 

5374 

—  18  18    8.16 

68.5 

+  13.469+.  360 

-      -17 

—  .019      o 

.07         .26      .13 

19  Capricorni 

5375 

+  44    030.50 

54-4 

+  I3-53I  +  .223 

-      -05 

+  .006      o 

.08         .32      .20 

57  Cygni 

5376 

+  44  48    9.86 

62.1 

+  13.  529+.  220 

-      -05 

-.003      o 

.11         .50      .26 

5377 

+  82    9  40.04 

82.6 

+  13-559-  -442 

-1.16 

+  .026+     2 

.04         .20      .07 

76  Draconis 

5378 

+  33    3  26.55 

92.2 

+  i3.575  +  .256 

-    -07 

+  .041       o 

.11         .87      .19 

5379 

+  27  4037-52 

72.8 

+  13.561  +  .268 

-    .08 

—  .002       o 

.04      .24    .10 

32  Vulpeculas 

538o 

+  44    o  23.34 

71.9 

+  I3-579  +  -222 

-    -05 

+  .013       o 

.11         .59      .25 

538i 

+  54    8    0.79 

65.1 

+  13.750+.  178 

-    .04 

+  .178      o 

.08         .30      .l6 

5382 

+   49    J-33 

55-6 

+  i3.589+.3i7 

—      .12 

+  .002          0 

.11         .46      .27 

2  2735.    7Y7  2"  285° 

5383 

-264039.57 

80.  i 

+  13-534+  -378 

-      -19 

—  .064+    I 

.11          .56      .20 

63  G  Capricorni 

5384 

+  12    II      9.28 

71.0 

+  13.612  +  .  301 

—      .10 

+  .OI2          0 

.09         .35      .16 

1  6  Delphini 

5385 

+  13   2O  23.12 

63.1 

+  13.581  +  .298 

—      .IO 

—  .019       o 

.12         .40      .22 

17  Delphini 

5386 

—  10    4  51.82 

66.4 

+  I3.626+.34I 

-      -IS 

—  .014      o 

.11         .38      .20 

7  Aquarii  * 

5387 

-  16  24  59.30 

76.0 

+  13.680+.  353 

-      .16 

+  .003       o 

.10      .48    .19 

64  G  Capricorni 

5388 

+  80  10  38.39 

74-4 

+  13.650—  .282 

•      .64 

-.030-  I 

.04         .22      .09 

5389 

+  47    2    3.05 

71.2 

+  i3.696+.2io 

-      -°5 

-.005       o 

.09         .37      .I? 

539° 

-77  24  17-99 

76.5 

+  13.349+.  784 

-1.32 

-  .362       o 

.06         .40      .15 

5391 

-Si  39  26.50 

88.9 

+  13.878+.  448 

-    -33 

+  .127-  I 

.13         .63      .19 

8G  Indi 

5392 

+  50  2039.51 

76.2 

+  13.734+.  196 

-    -°5 

—  .018       o 

.13         .50      .21 

5393 

+  40  46  54-75 

73-4 

+  13.740+.  231 

-    .06 

—  .024       o 

.04         .21      .09 

5394 

+  56  30    8.64 

64.2 

+  13.781  +  .  164 

-    .04 

+  .006       o 

.08         .27      .15 

5395 

+  10  27  10.96 

57-i 

+  13.  722  +  .  299 

—    .11 

-  -053     ° 

-14      -55    -32 

18  Delphini 

5396 

-36  3°  59-09 

91.6 

+  13.743  +  .  398 

-    -23 

-.036+  I 

.14    i.oi    .23 

37  G  Microscopii 

5397 

+  21   56  20-37 

74-7 

+  I3-782  +  .278 

-    .09 

-  .005       o 

.08      .37    .15 

33  Vulpeculae 

5398 

-1925   23.13 

69-3 

+  I3-77I  +  -356 

-    .18 

-  .023       o 

.10      .37    .18 

20  Capricorni 

5399 

+  3  54  35-47 

57-2 

+  13.660+.  310 

—    .11 

-.144-  I 

.10         .35      .21 

i  Equulei  (e)  * 

5400 

—  13  26  26.01 

73-o 

+  13.820+.  342 

-    -IS 

—  .006      o 

.10      .39    .18 

8  Aquarii 

5386/81034.     nM2"i66° 


S399  s  2737- 


?S  i"  ±.  Wnary,  7"  n"  73°. 


2l8 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    IQOO 


Ho. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.  and  100  A  p 

Prob.  Errors.  . 
aEp.      loop      aio 

M 

h    m          s 

8                     S 

s 

s 

//               //            // 

5401 

Br  2726 

5-9 

20  54  44-673 

76.4 

+  2.  1462  +  .0036 

+  .004 

+  .0098      o 

.IO          .42        .17 

5402 

y  Microscopii 

4.8 

55    9-546 

84.4 

+3.6911-.  0235 

—  .001 

+  .0006       o 

.10        .68      .20 

5403 

Br  2718 

6.7 

55  14-155 

70-3 

+  3.3822—  .0128 

+  .OOI 

—  .0020       o 

.09        .36      .17 

5404 

Br  2721 

6.8 

55  15-641 

71.4 

+3.  1715-.  0069 

+  .OO2 

+  .OOOI         0 

.13        .69      .30 

5405 

Pi  429 

6.0 

55  i7-8°9 

68.2 

+  I.92IO+.OO2O 

+  .004 

+  .0008      o 

.12            .57         .27 

5406 

Br  2723 

6-5 

55  I7-9I9 

83.2 

+  3.1616—  .0065 

+  .OO2 

+  .0029+   I 

.06            .40         '.13 

5407 

Br  2722 

7-i 

55  37-685 

73-4 

+  3.3107-.  0106 

+  .OOI 

—  .0003      o 

.IO            .44         .19 

5408 

Pi  411 

6.1 

55  49-227 

80.8 

+  3.5700-  .0190 

.OOO 

+  .0017      o 

.13             .58         .21 

5409 

Pulk«  3063 

5-9 

55  53-448 

85-7 

+  2.7399+.ooi2 

+  .004 

—  .0024      o 

.12             .52         .17 

5410 

Br  2732 

4-9 

56  25.498 

66.6 

+  2.0392  +  .0032 

+  .004 

+  .0007       o 

.06            .38         .17 

54" 

£  Microscopii 

5-5 

56  34-685 

86.0 

+3.8478-  .0302 

.OOO 

—  .0017+   I 

•O?             -51          -14 

54" 

Br  2738 

5-9 

56  57-495 

72-9 

+  1.4820—  .0052 

—  .003 

+  .0062+   I 

.09            .44         .19 

5413 

Br  2728  m 

7.0 

57  16.673 

72.2 

+2.9578-  .0023 

+  .003 

—  .0008      o 

.IO            .32         .l6 

54H 

Br  2735 

5-5 

57  4i-44o 

63-9 

+  2.0923  +.0035 

+  .005 

+  .0002       o 

.11             .45         .24 

54IS 

/x  Indi 

5-5 

57  53-030 

88.0 

+  4.4420—  .0618 

+  .OO4 

+  .0014+  I 

.20            .93         .28 

S4i6 

Pi  452 

6.7 

58  30.788 

81.0 

+  2.  2985  +  .OO42 

+  .005 

—  .0005       o 

.IO            .42          .l6 

5417 

17  Capricorni 

S-o 

58  42.880 

65.6 

+3.4199-  .0142 

+  .OOI 

—  .0030       o 

.06            .27    '      .14 

5418 

Br  2730 

5-7 

58  47-372 

65-5 

+  3.I77I-.007I 

+  .OO2 

+  .OOI2         O 

.12            .46         .24 

5419 

L  8625  m 

5-9 

58  54-059 

89.8 

+  6.3875-.  2270 

+  .103 

+  .0963-     2 

.l8          I.  O2          .27 

5420 

Br  2740 

6.4 

59  "-974 

69.8 

+  2.3251  +  .0042 

+  .005 

+  .0007       o 

.09            .34         .16 

5421 

Groomb  3378  m 

6.0 

59  23-719 

60.0 

+  I-6555-  -0016 

+  .OOI 

+  .0025      o 

.15        .66      .36 

5422 

Br  2734 

5-9 

59  35-902 

S5-o 

+  2.9891—  .0028 

+  .003 

+  .0013       o 

•13        -52      -32 

5423 

n  Microscopii 

5-7 

59  55-i6s 

83-7 

+  3.9182-.  0342 

+  .OOI 

+  .OOII          0 

.13        .80      .25 

5424 

8  Microscopii 

5-9 

20  59  58.898 

81-3 

+  3.6308—  .0217 

+  .00  1 

+_.ooi3      o 

.14        .78      .26 

S42S 

Pi  465 

6.7 

21    o    7.443 

84.1 

+  2.  2447  +  .0043 

+  .005 

+  .OOO2          0 

.08        .48      .15 

5426 

Br  2731 

5-4 

o  17.893 

80.  i 

+  3.6780—  .0238 

.000 

—  .0012      o 

.14        .69    ,.25 

5427 

6  Capricorni 

4.1 

o  19.614 

72.6 

+  3-3779-  -0128 

+  .OOI 

+  .0057       o 

.04        .24      .10 

5428 

Br  2739 

6.1 

o  29.359 

61.7 

+  2.9736-  .0025 

+  .003 

—  .0069+    I 

-ii        -45      -25 

5429 

L8678 

7.0 

o  59.149 

93-2 

+  4.1714-  .0474 

+  .OO2 

+  .0036      o 

.16        .93      .23 

5430 

Br  2737 

4.6 

1  16.815 

78-3 

+  3.  5165-  .0178 

+  .001 

—  .0022       o 

.10        .40      .16 

5431 

(  Cygni 

3-9 

1  17.581 

72-3 

+  2.  1803  +  .OO42 

+  .005 

+  .0006      o 

.04        .24      .10 

5432 

PulkH  3078 

6.0 

2  18.479 

87.0 

+  2-5I43  +  .0037 

+.005 

—  .0008      o 

.11        .62      .18 

5433 

6  1  *  Cygni 

5-5 

2  24.858 

69-5 

+  2.6873  +  .OIOO 

+  .005 

+.3523+60 

5434 

6  1  2  Cygni 

6.1 

2  26.385 

71.8 

+  2.  6863  +  .0023 

+.005 

+  •35"-  17 

5435 

X  Capricorni 

5-4 

2  50.026 

65-4 

+3.4432-.  0152 

+  .OOI 

+  .0014      o 

•io        .33      .18 

5436 

Br  2750 

4.8 

3      9-403 

68.7 

+  2.0654+.  0038 

+.005 

+  .OOI  I          0 

.09        .34      .17 

5437 

Br  2742 

7-i 

3  33-6i2 

76-7 

+  3.4229-  .0147 

+  .OOI 

+  .0009      o 

.18        .64      .28 

5438 

Br  2743 

6-5 

3  50-029 

78.2 

+  3.4369-  .0148 

+  .OOI 

+  .0087       o 

.11        .38      .16 

5439 

o  Pavonis 

5-3 

3  57-98o 

77-5 

+  5-7043-  •I7°4 

+.067 

+  .0049       o 

.12            .62         .23 

5440 

L  8692 

7-3 

4    7-730 

87.1 

+  4.5002—  .0689 

+  .009 

+  -0033      o 

.18           .92,      .28 

5441 

v  Aquarii 

4.6 

4    8.870 

77-5 

+  3.2721—  .0098 

+  .OO2 

+  .0063      o 

.04           .21         .08 

5442 

Pi  i 

6.0 

4  24.3" 

76.2 

+  2.  5433  +  .0037 

+  .005 

+  .0017       o 

.09           .50        .19 

5443 

y  Equulei 

4-7 

5  28.717 

68.0 

+  2.9178—  .0011 

+.003 

+  .0036+   I 

.08            .33         .16 

5444 

Br  2752 

6-3 

5  39-747 

72-9 

+  2.9153—  .0013 

+.003 

—  .0005       o 

.11            .44        .20 

5445 

L87is 

6.1 

5  48-472 

81.4 

+3.8687-.  0329 

+  .OO2 

+  .0051+  I 

.15            .75         .26 

5446 

L  8719 

5-5 

6  39-267 

85-2 

+3-8534-  -0321 

+  .002. 

+  .0160      o 

-13           -78         -24 

5447 

Pi  32 

5-8 

7  10.089 

52.2 

+  I-8537  +  -ooi9 

+  .003 

+  .0025      o 

.10        .39      .25 

5448 

Br  2753 

5-7 

7  21.614 

76.8 

+  3.5661—  .0200 

+  .OO2 

+  .0071       o 

.10        .44      .18 

5449 

L8734 

7-8 

7  29.223 

92.8 

+  3-5052-.  0179 

+  .002 

+  .0018       o 

.12            .80         .18 

5450 

Br  2777 

6.1 

21    7  30.291 

81-3 

—  1.1167—  .1764 

—  .270 

+  .0083-  I 

.04            .22         .08 

541°  2  2743- 
5414  02  426. 


p""  20"  353°. 
10"  3"  162°. 


5413  2  2742.  7™8-7«C8  3"  221°. 
5416  W.  H.  ioMi9"  300°;  i2M  26 


250° 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


219 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

li'and  iooA(i' 

Prob.  Errors. 
SEp.  100  n'  8  10 

Remarks. 

5401 

Of                II 

+  44    4S5-10 

76.5 

//                       // 

+  I3-9I4+.22I 

-•05 

a 

+  .068+    I 

//         //       a 

.10      .44    .18 

5402 

-323855-i7 

81.9 

+  i3.877  +  .383 

—  .22 

+  .004       o 

.09  >  .55  .18 

i  Piscis  Aust 

5403 

-i?  55  15-35 

68.9 

+  13.868+.  350 

--I7 

—  .010      o 

•09      -35    -17 

21  Capricorn] 

54°4 

-    5  52    2.04 

68.6 

+  i3.87i  +  .328 

-.14 

—  .008       o 

.11         .47      .22 

10  Aquarii 

5405 

+  50    4  24.76 

65-2 

+  13.897  +  .196 

-.°5 

+  .016      o 

.10         .44      .22 

S  2741.   7*5  i'.'9  30° 

5406 

-   5    7    0-23 

79-3 

+  I3-746+.327 

-.14 

-  .136      o 

•°7      -35    -13 

ii  Aquarii 

5407 

-13  55  16.31 

73-3 

+  I3-905  +  .342 

-.16 

+  .003      o 

.09         .42      .l8 

9  Aquarii 

5408 

-27  16  19.83 

79-3 

+  13.882  +  .369 

—  .20 

-  -032       o 

.12         .59      .22 

67  G  Capricorni 

5409 

+  18  56  25.69 

83.8 

+  i3.852  +  .28i 

-.09 

-  .067       o 

.12         .49      .l8 

8?8  46"  333° 

5410 

+  47    7  49-5  ! 

59-5 

+  I3-955  +  -2o8 

-•05 

+  .003       o 

.06         .26      .14 

SgCygni/1 

5411 

-39    i  18.98 

82.2 

+  I3-842  +  .396 

-•25 

—  .120      o 

.08         .47      .15 

54" 

+  59    2  51.22 

77-7 

+  13.990+.  149 

-.04 

+  .004+  I 

.09         .40      .l6 

5413 

+  6  47  11.64 

68.8 

+  13.995  +  .302 

—  .12 

—  .on      o 

.10      .30    .16 

2  Equulei  * 

54H 

+  45  45  46.25 

56.6 

+  14.035  +  .  212 

-•°5 

+  .003       o 

.10      .38    .23 

60  Cygni  * 

5415 

-55    721.23 

84-5 

+  13.994+  .456 

-.36 

-  .050      o 

.15         .71      .24 

54i6 

+  39    651.78 

77.8 

+  14.077  +  .232 

-.06 

—  .006       o 

.09         .35      .14 

* 

5417 

—  2O  15      2.O2 

64.0 

+  14.052  +  .348 

-.18 

-  .043     ° 

.06         .26      .14 

54i8 

-   6  13    8.65 

61.4 

+  14.096+.  323 

-.14 

—  .004      o 

.09         .33      .18 

12  Aquarii  * 

5419 

-73  33  52-11 

85.2 

+  13.  776+.  666 

-.89 

-  -331  +10 

.14         .77      .24 

119  G  Pavonis  * 

5420 

+  38  15  42.75 

73-3 

+  I4.H7  +  .235 

-.06 

—  .009      o 

.08         .36      .16 

5421 

+  56  16  28.57 

56.8 

+  14.138  +  .  166 

-.04 

.000      o 

.11         .46      .27 

t  2751.    6?4-7«*4  i'.'7  350° 

5422 

+   56  19.66 

53-i 

+  i4.i5i  +  -3°3 

—  .12 

+  .001       o 

•13         -52      .32 

3  Equulei 

5423 

-4147    5.58 

80.6 

+  I4.I52  +  .398 

-.26 

—  .018      o 

.11         .65      .22 

5424 

-3031  20.34 

78.4 

+  14.080+.  368 

—  .21 

-  .094      o 

.13         .69      .25 

5425 

+  4i  13  56-99 

81.1 

+  14.132  +  .  225 

-.06 

-  -051       o 

.07         .38      .13 

OSApp.    8M57"i8s° 

5426 

-32  44  29.86 

77-5 

+  i4.i83  +  .373 

—  .22 

—  .on       o 

.13         .67      .25 

2  Pise  Aust  49  G  Micros 

5427 

-17  37  49.39 

71.7 

+  I4.I29+-342 

-•17 

-  .066+  I 

.05      .24    .10 

5428 

+   5  33  46.05 

59-6 

+  14.072  +  .299 

—  .12 

-  -134-  I 

.IO         .38      .22 

4  Equulei 

5429 

-49  20  24.75  « 

89.8 

+  14.206+.  422 

-•31 

-  .030      o 

.13         .69      .19 

14  G  Indi 

5430 

-  25  24  20.43 

81.8 

+  14.203  +  .354 

-.I9 

-  -051      o 

.09         .42      .15 

24  Capricorni  A  * 

5431 

+  43  3i  43-34 

70.6 

+  14.252  +  .  218 

-•05 

-  .003       o 

.04         .18      .08 

5432 

+  3047    0.78 

91.0 

+  14.320+.  250 

-.08 

+  .003       o 

.12         .69      .l8 

5433 
5434 

+  38  15  26.82 
+  38  15  14.00 

67.! 

67.4 

+  17.  566+.  300 
+  I7-398  +  .326 

-.06 
-.06 

+3.242+32 

+3-073+58 

>See  Appendix 

5435 

-2i  35  43-75 

60.9 

+  I4.2Q2  +  .344 

-.18 

-  .057       o 

.IO         .31      .l8 

5436 

+  47  14  46.61 

60.9 

+  14.361  +  .204 

-•05 

—  .008      o 

.08         .27      .15 

63  Cygni/' 

5437 

-2035  52.23 

71.9 

+  14.387  +  .  341 

-.18 

—  .007       o 

.14         .46      .22 

26  Capricorni 

5438 

-2057  29.13 

80.7 

+  14.284+.  343 

-.18 

—  .126+   I 

.09         .37      .14 

27  Capricorni 

5439 

-7032    2.57 

79-9 

+  14.384+.  572 

-.72 

-  -034      o 

.11         -57      .20 

5440 

-S^SS  25-46 

83-4 

+  14.412  +  .450 

-•38 

—  .016      o 

.15         .71      .24 

5441 

—  ii  46  36.18 

75-2 

+  I4-4I7  +  -326 

-•15 

-  .013+  I 

.04         .19      .08 

5442 

+  2948    4.98 

71.6 

+  14.429+.  251 

-.08 

—  .016       o 

•OS         .35      .15 

22762.    8*o3"53ii° 

5443 

+  9  43  42.83 

69.4 

+  14.349+.  288 

—  .11 

—  .161       o 

.08         .32      .15 

Knott.    IIM  2"  274° 

5444 

+   9  38  27.46 

68.8 

+  14.538+-  287 

.—  .II 

+  .017       o 

.11         .38      .19 

6  Equulei 

5445 

-4040  19.77 

80.9 

+  14.322  +  .  383 

-•25 

—  .208      o 

•13         ^5      -23 

55  G  Microscopii 

5446 

-394955-9° 

82.5 

+  14.445  +  .381 

-•25 

-    .136+    2 

.13         .67      .23 

56  G  Microscopii 

5447 
5448 
5449 

+  53    9  16.84 
-28    i  38.56 
-25.IS  23-83 

45-2 
81.8 
90.8 

+  14.609+.  179 
+  14.485  +  .  350 
+  14.596  +  .  343 

-.04 
—  .20 
-.19 

-  .003       o 

-  .138+  I 

-  -035      o 

.10      .38    .27 

.11         .47      .17 

.10      .77    .18 

(3  Piscis  Aust 
58  G  Microscopii 

5450 

+  77  43  i5-°° 

81.4 

+  14.665-.  117 

-•3° 

+    -033+     I 

.04        .22      .08 

77  Draconis 

54182,2745.    8M  2'.'8  191°. 


5419  Innes.     (iff  6-6*9 ',  close  double. 


5430  See.    i2M26"i86°. 


22O 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    1900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3at 

H  and  100  A  p. 

Prob.  Errors. 
aEp.     loop,     aio 

M 

b    m         s 

s               s 

s 

s 

"            //          // 

5451 

1,8727 

6.0 

21    8  37.430 

86.3 

+  4.3094-  .0588 

+  .008 

+  .0009       O 

.15         .78       .24 

5452 

£  Cygni 

3-3 

8  40-793 

70.6 

+  2.5515+  .0040 

+  .005 

—  .0002       o 

.03         .16       .07 

5453 

Pi  51  m 

5-8 

9  15.488 

81.5 

+  1.5290—  .0042 

—  .002 

—  .0005       o 

.06        .28      .10 

5454 

L  8742 

6.4 

9  33-402 

94.0 

+3.7489-  .0284 

+  .OO2 

+  .0040       o 

.13          1.  00         .21 

5455 

S  Equulei  m 

4.6 

9  36-613 

67.9 

+  2.9221—  .0009 

+  .003 

+  .0028+    i 

.08            .30         .15 

5456 

<t>  Capricorni 

5-4 

9  56-445 

72.7 

+3.4207-  .0152 

+  .OO2 

+  .0005       o 

•09        -33      -16 

5457 

Br  2759 

5-6 

10  12.789 

64-5 

+3.3252-  .0118 

+  .OO2 

+  .OOI2          O 

.08        .28      .15 

5458 

Pi  61 

7.2 

10  14.500 

71.8 

+  1.5295—  .0041 

—  .002 

r-  .O004           0 

.12           .56         .24 

5459 

Pi  50  m 

7-4 

10  28.687 

75-i 

+  2.2994+  .0051 

+  .006 

+  .0028       o 

.12            .52          .22 

5460 

T  Cygni 

3-8 

10  47.909 

72.8 

+  2.3925+  .0046 

+  .006 

+  .0133-     2 

.04            .l8         .08 

546i 

o  Equulei 

4.0 

10  49.522 

79-5 

+  3.0001—  .0027 

+  .004 

+  .0038       o 

.03           .21         .07 

5462 

Br  2763 

7-i 

10  55.701 

70.8 

+  3.2241—  .0088 

+  .003 

—  .0008       o 

.13           .51         .24 

5463 

L8743 

7.0 

II    4.002 

93-2 

+4.1073-  .0476 

+  .006 

—  .0033+     I 

.15            .96         .22 

5464 

€  Microscopii 

4.8 

II  52.574 

83.8 

+3.6488-  .0243 

+  .OO2 

+  .0045       o 

.O?            .44         .14 

5465 

Br  2765 

5-5 

12   20.858 

66.7 

+3-3704-  .0135 

+  .OO2 

+  .OOIO         O 

.12            .34         .19 

5466 

Br  2766 

6.6 

12  39-993 

69.6 

+3-3615-  -0132 

+  .O02 

+  .0016       o 

.12            .56         .25 

5467 

fllndi 

4.6 

12  44.465 

82.7 

+4.3057-  -0599 

+  .OIO 

+  .0129       o 

.16            .78         .27 

5468 

Br  2768 

5-9 

12  56.345 

64.7 

+3.1501-  .0067 

+  .003 

+  .0008       o 

.13            .48         .25 

5469 

a  Cygni 

4-4 

13  29.242 

71.7 

+2.3536+  .0053 

+  .006 

—  .0004       o 

.05            .21          .IO 

5470 

Pi  66 

7.2 

13  41.688 

69.9 

+3.3381-  .0125 

+  .OO2 

+  .0014       o 

.l6            .60         .29 

5471 

v  Cygni 

4.4 

13  48.363 

64.8 

+  2.4653+  .0050 

+  .006 

+  .0016      o 

.12            .48         .25 

5472 

Pi  86 

6-3 

14  14.874 

67.6 

+  1.7938+  .0014 

+  .003 

+  .0025      o 

.11             .48         .23 

5473 

6  Microscopii 

S-o 

14  21.972 

89.6 

+3.8546-  .0345 

+  .004 

+  .0075       o 

.13            .8l         .21 

5474 

Br  2775 

5-o 

14  43-341 

59-7 

+2.2328+  .0055 

+  .006 

^.0014       o 

.11            .45         .25 

5475 

Pi  75 

7-4 

15  22.280 

85-7 

+3.4166-  .0154 

+  .003 

+  .0023       o 

.11            .64        .19 

5476 

Br  2771 

6.2 

15  49-775 

83-2 

+  3.1472—  .0066 

+  .003 

—  .0017       o 

•07        -39      -13 

5477 

Pi  78 

7.0 

iS  53-009 

84.2 

+3.5726-  .0217 

+  .003 

+  .OO2I         O 

.11        .68      .21 

5478 

Groomb  3432 

5-8 

16    2.237 

69.4 

+  2.0622+  .0048 

+  .006 

+  .0014       o 

.12           .56         .26 

5479 

Br  2774 

6.2 

1  6    8.003 

57-7 

+  2.9686—  .0020 

+  .004 

+  .0028       o 

•15           -50        -30 

5480 

a  Cephei 

2.4 

16  11.598 

65.6 

+  1-4353-  .0069 

—  .OO5 

+  .O2I7+    2 

.03            .13         .06 

548i 

Dpt  2590 

5-9 

16  29.628 

76.7 

+  1.6626—  .0009 

+  .OO  I 

+  .0010          0 

.11            .42         .18 

5482 

Arm  4628 

6.0 

16  33-055 

80.2 

+  2.7087+  .0032 

+  .005 

+  .0154+  I 

.11            .84         .27 

5483 

Br  2773 

7-3 

16  36.731 

63-9 

+  3.2243-  .0089 

+  .003 

+  .0017       o 

.11            .51         .26 

5484 

i  Capricorni 

4-3 

16  40.780 

69-5 

+3.3460-  .0130 

+  .003 

+  .OO22         O 

.04            .27          .12 

5485 

Groomb  3436  n.p. 

7-9 

16  45-357 

68.6 

+  1.9313+  .0034 

+  .005 

—  .0005—    I 

.16            .54         .28 

5486 

Br  2796 

6.4 

16  47.883 

71.9 

-0.5859-  .1342 

—  .202 

+  .0049+  I 

.IO            .44         .19 

5487 

Pi  87 

5-9 

17  16.629 

83.1 

+3.4468—  .0167 

+  .003 

+  .0030      o 

III            .56         .19 

5488 

Br  2788 

5-3 

17  17.708 

70.8 

+  1.2508—  .0125 

—  .on 

+  .0004       o 

.10        .38      .18 

5489 

Br  2780 

4-3 

17  27.685 

68.4 

+  2-7734+  -0019 

+  .005 

+  .0072       o 

.04            .24         .11 

5490 

Br  2776 

6.4 

17  34-6ii 

69-3 

+  3.2188-  .0089 

+  .003 

—  .0029      o 

.11            .39         .20 

5491 

j3  Equulei 

5-2 

17  55.8oi 

70-5 

+  2.9788—    .0021 

+  .004 

+  .0036      o 

.13            .44         .21 

5492 

L  8793  m 

6.1 

18    2.381 

90.2 

+  3-8405-    -0349 

+  .005 

+  .O022         O 

.13            .78         .20 

5493 

y  Pavonis 

4-3 

18  10.691 

70.0 

+  5.OI70—    .1241 

+.048 

+  .0134-23 

.09            .40         ,l8 

5494 

Br  2778 

5-6 

18  29.375 

78.9 

+  3.4085-    .0154 

+  .003 

—  .OOIO+     I 

.09            .44         .l6 

5495 

Groomb  3441 

6.0 

18  31.990 

68.1 

+  2.O82O+   .OO50 

+  .006 

+  .0040       o 

.12           .57         .27 

5496 

Br  2781 

5-6 

18  43.658 

72.0 

+  3.2828—    .0108 

+.003 

+  .0059       o 

.IO           .42         .19 

5497 

L  87,92 

6.4 

19    7-579 

80.3 

+  4.3089—    .0642 

+  .015 

—  .OOOI          0 

.12           .63         .22 

5498 

Pi  114 

5-8 

19  28.452 

69.2 

+  2.7OO6+   .OO32 

+  .006 

+  .0090       o 

.14           .69         .31 

5499 

Groomb  3548 

'7-7 

19  35-03- 

85.1 

—  11.498  3.286- 

+  .O22-  +12 

.05           .28         .08 

5500 

Br2783 

6-7 

21  19  38.958 

70.4 

+  3.1287—    .OO6I 

+  .003 

—  .OOI2          0 

•iS        -57      -27 

5455  os  535-     s"Ci-s"<5  <  i";  5-7  ys.±  ;  2  2777.     io"?s  43"  19°,  rel.  mot. 
5471  02  433.     IOM  15"  220°;  IOM  21"  180°. 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


221 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

,', 

n'andioo  Aji' 

Prob.  Errors. 
SEp.  100  n'  810 

Remarks. 

5451 

O            t              H 

-53  4037-32 

86.6 

tr                   it 

+  14.657+  .421 

-•35 

-  .043       o 

.12         .73      .21 

23  G  Indi 

5452 

+  29  48  59-59 

68.8 

+  14.643+  .247 

-.08 

-  -059       o 

.03         .16      .07 

5453 

+  593430.95 

69.8 

+  14.739+  -MS 

-.04 

+  .003       o 

.06         .26      .12 

S  2780.     6*2-7^2  l'/2  225° 

5454 

-3637  31-74 

93-4 

+  14.760+  .364 

-•23 

+  .006       o 

.15      1.07      .23 

60  G  Microscopii 

5455 

+  9  36    5-32 

67.9 

+  14.454+  -282 

—  .11 

-  -303       o 

.06         .23      .12 

* 

5456 

—  2i     4    0.82 

70.6 

+  14.775+  -331 

-.18 

—  .002       o 

.08         .26      .13 

5457 

-15  35  13-57 

62.5 

+  14.801+  .321 

-.16 

+  .008       o 

.07         .26      .14 

29  Capricorni 

5458 

+  5941    6.39 

65.0 

+  14.782+  .144 

-.04 

—  .012          0 

.12         .47      .24 

- 

5459 

+  4043  54-33 

69.0 

+  14.837+    .220 

-.06 

+  .029       o 

.10      .42    .20 

OS  432.    8*0—8^4  j"3  126° 

546o 

+  37  37    5-88 

70.4 

+  15.254+    -230 

-.07 

+.427+  I 

.04         .21      .09 

Clark.    sfS-^fs  i"  ±  45  yrs.  ± 

546i 

+   4  50    3-27 

76.8 

+  14.742+    .289 

-•13 

—  .087      o 

.04         .17      .07 

5462 

-   9  37  52.92 

68.4 

+  14.833+     .310 

-•15 

—  .002       o 

.11         .40      .20 

14  Aquarii 

5463 

—  49    8    1.20 

89.0 

+  14.757+    -396 

-•3° 

-  .086       o 

.12         .69      .19 

24  G  Indi 

5464 

-32  35  25-92 

79.8 

+  14.856+    .350 

—  .22 

-  -034      o 

.08         .39      .14 

4  Piscis  Aust 

5465 

—  18  24  14.92 

69.2 

+  14.914+    .322 

-.18 

—  .004      o 

.12         .37      .19 

30  Capricorni 

5466 

-17  52  54-48 

73-o 

+  14.940+     .321 

-.18 

+  .003       o 

.12         .49     .22 

31  Capricorni 

5467 

-5352    6.37 

81.4 

+  14.867+     .414 

-•35 

-.074+  I 

.14        .64      .23 

h  5258.    7*2  4"  282° 

5468 

—    4  56  22.02 

67-5 

+  14.971+     .300 

-•15 

+  .018       o 

.11         .39      .20 

15  Aquarii 

5469 

+  38  58  3I-I7 

69.8 

+  14.978+    .222 

-.07 

—  .006      o 

.06         .21      .IO 

5470 

-  16  35  58-90 

71.0 

+  14.973+     .317 

-•17 

-  .023       o 

•13         -50      -23 

5471 

+  342835.97 

62.2 

+  14.982+    .232 

-.08 

—  .021          0 

.09         .36      .19 

* 

5472 

+  55  22  39.72 

65.1 

+  15.040+    .167 

-.04 

+  .OII          O 

.09         .40      .20 

5473 

-41  13  56.25 

87-5 

+  15.035+    .366 

-.26 

.000+     I 

.12         .67      .19 

L8773.    65GMicr0l 

5474 

+  43  3i  29.37 

64.1 

+  15.034+    .208 

-.06 

-  .023       o 

.09         .47      .24 

68  Cygni  A 

547'5 

-21    1435-33 

79.1 

+  15.031+    .322 

-.18 

—  .062       o 

.12        .47      .19 

5476 

-   4  59  -  4.82 

74-7 

+  15.128+    .295 

-.15 

+  .008       o 

•08        .33      .14 

1  6  Aquarii 

5477 

-2935  25.44 

84.6 

+  15.086+    .336 

—  .21 

-  .037       o 

.10      .56    .17 

66  G  Microscopii 

5478 

+  49    5  i3-25 

63.8 

+  15.128+     .191 

-•05 

—  .004      o 

.11         .48      .25 

5479 

+  6  55  50.12 

54-8 

+  15.124+    .278 

—  .12 

-.013       o 

•13         -52      -32 

9  Equulei 

548o 

+  62    9  42.48 

64.2 

+  15.190+    .133 

-.04 

+  .049+     2 

.02         .11      .06 

548i 

+  58  12    0.69 

69.6 

+  15.147+    .152 

-.04 

—  .on       o 

.10      .34    .17 

2  2790.    IOM  5"  46° 

5482 

+  23  26    4.09 

80.6 

+  15.025+    .253 

-.09 

-.136+  I 

.08         .65      .21 

34  Vulpeculae 

5483 

-   945    8.17 

67.7 

+  15.117+    .301 

-.16 

—  .048       o 

.10      .73    .32 

5484 

-17  I537-83 

65-5 

+  15.174+    .313 

—  .17 

+  .006       o 

.05         .24      .12 

5485 

+  52  33  12-15 

54-0 

+  15.239+     .178 

-.04 

+  .066      o 

.12         .42      .26 

52789.    8"!"i6"ii70 

5486 

+  7635  28.31 

70.5 

+  15.185-     .062 

—  .22 

+  .OIO         0 

.10      .35    .17 

5487 

-23    545-50 

82.6 

+  15.208+    .321 

-.19 

+  .005       o 

.11         .57      .19 

87  G  Capricorni 

5488 

+  64  26  51.89 

61.8 

+  15.205+    .112 

-.04 

+  .001       o 

.09         .28      .l6 

6  Cephei 

5489 

+  19  22  35.20 

77.6 

+  15.271+    .258 

—  .IO 

+.058+  I 

.04         .21      .08 

i  Pegasi  * 

5490 

-     94444-40 

70.8 

+  15.194+    .299 

-.16 

—  .026       o 

.IO         .41      .19 

17  Aquarii 

5491 

+  6  23    0.45 

70.6 

+  15.246+     .276 

-•13 

+  .006      o 

.11         .42      .20 

5492 

—  41  26    6.80 

87.5 

+  15.249+    .357 

-.26 

+  .003       o 

.11         .64      .l8 

67  G  Microscopii  6  2  * 

5493 

-6549  6.76 

70.8 

+  16.065+    -4^9 

-•53 

+  .811+   i 

.08         .34      .15 

5494 

-2i  16  37.43 

76.7 

+  15.145+    .315 

-.18 

—  .127       o 

.09         .38      .15 

33  Capricorni 

5495 

+  48  57  36.64 

64.2 

+  15-337+    .190 

-•05 

+  .063       o 

.11         .49      .25 

5496 

-  13  18  26.44 

69.8 

+  15.288+    .304 

-.17 

+.003+  I 

.09         .37      .18 

18  Aquarii 

5497 

-55    532.6o 

76.4 

+  15.349+     .399 

-•36 

+  .041       o 

.10      .47    .19 

34  G  Indi  y 

5498 

+  23  5039.56 

67.6 

+  15.345+     .248 

-.09 

+  .018+  I 

.11         .58      .27 

5499 

+  86  37  24.54 

88.3 

+  I5.346-I.085 

+  .013+     2 

•05      -35    -09 

5500 

-   3  49  37-45 

68.6 

+  15.290+     .287 

-•15 

-  .047       o 

.12         .44      .22 

20  Aquarii 

5489  SApp.    &»636"3u\ 


5492  p  766.    6*5-7'? 7  i"  290*. 


222 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IpOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

H  and  100  A  p 

Prob.  Errors. 
aEp.      100  H.     aio 

M 

h    m         s 

8                     S 

S 

s 

'/                 ff             n 

5501 

1,8782 

5-8 

21   19  48.639 

86.5 

+  5-4423-  -l642 

+  .089 

+  .0154-  I 

.18        .88      .28 

5502 

Br  2782 

5-9 

I9  50.639 

74-8 

+  3.2276—  .0090 

+  .003 

+  .OOIO+    I 

.09        .38      .16 

5503 

Br  2784 

5-8 

20    4.p57 

63-4 

+3.  1305-.  0062 

+  .003 

—  .0017      o 

•H        -45      -25 

5504 

Pi  120 

5-9 

20    7.576 

63-8 

+  2.66i2  +  .oo37 

+  .006 

+  .0028      o 

.12        .69      .34 

5505 

L88o8 

6.0 

20      7.998 

87.6 

+  3.  7642-.  0310 

+  .005 

+  .0148—    I 

.13        .64      .19 

5506 

L  8809 

5-8 

20  36.803 

89.2 

+  3  -8645  --031-3 

+  .006 

—  .0058      o 

.11        .66      .18 

5507 

£  Capricorn! 

3-8 

2057-559 

77-6 

+  3-4325-  -0166 

+  .003 

.0000       o 

.05        .24      .09 

5508 

Groomb3477  m 

7-7 

21  31.390 

68.5 

-1.6635-.  2747 

-•539 

+  .0601  +  12 

.13        .58      .27 

5509 

Br  2832 

7.2 

21  32.97- 

71.6 

-4.805  --.880- 

+  .013-  +13 

.09        .39      .17 

5510 

Br  2787 

6.2 

21  34.712 

74.1 

+  3-4083-  .0158 

+  .003 

—  .0018      o 

.09        .36      .16 

55" 

Br  2792 

5-6 

21  39-253 

63-4 

+  2.2OIO+.OO62 

+  .007 

+  .0193+  I 

.13        .50      .26 

5512 

Br  2791 

6.1 

21   4I.8I2 

75-2 

+  2.  4486  +.0058 

+  .006 

+  .0002       o 

.10        .33      .16 

5513 

Br  2790 

4.6 

23      I-356 

70.2 

+  3.4276-  .0163 

+  .003 

+  .0095       o 

.09        .30      .15 

55H 

L882S 

6.9 

23    5-349 

83-6 

+  3-5954-  -0238 

+  .004 

+  .0016      o 

.12            .72         .22 

5515 

Br  2793 

5-5 

23  I5-586 

79-4 

+  2.6415  +  .0042 

+  .006 

+  .0026      o 

•°8            .33         .13 

55i6 

Pi  150 

5-3 

23  16.659 

63.2 

+  2.4433  +  .0060 

+  .007 

—  .0001       o 

.11             .62         .31 

5517 

Pulk«  3131 

5-3 

23  18.576 

87.4 

+  2.  1284+.  0059 

+  .007 

+  .0069       o 

.11             .62         .18 

55i8 

Pi  156 

6.1 

23  27.163 

60.7 

+  I.9770+.  0046 

+  .005 

+  .0026       o 

.12            .51          .28 

5519 

Pi  iS3 

5-9 

23  5!-842 

73-6 

+  2.  5601  +  .OO52 

+  .006 

+  .0094       o 

.l6            .8l          .34 

5520 

Pi  i4S 

6.8 

24  22.872 

76.9 

+  3-3727-  -0144 

+  .003 

+  .0017       o 

.13            .54         -22 

5521 

Pi  iS4 

7.2 

25  11.807 

66.2 

+  3-2925-.OH5 

+  .003 

+  .0005       o 

.15            .56         .28 

5522 

Br  2798 

4-7 

25  25-050 

71.6 

+  2.7I58+.0034 

+  .006 

+  .OOI2         O 

.12            .52         .23 

5523 

Br  2799 

5-4 

25  45-502 

83-3 

+  2.  21  1  1  +  .0064 

+  .007 

+  .0044—    I 

.06            .28         .09 

5524 

{  Gruis 

5-5 

25  46.107 

86.2 

+  3.8119-  .0356 

+  .007 

-  .0005       o 

.15        .88      .26 

5525 

Br  2805 

5-5 

25  50.298 

71.7 

+  1.  1668—  .0164 

-.015 

—  .0020       o 

.09        .34      .16 

5526 

Br  2794 

6-3 

26  11.744 

89.0 

+  3.6384-  .0265 

+  .005 

—  .0027       o 

.11            .78         .20 

5527 

|8  Aquarii 

2.9 

26  17.715 

69.6 

+  3.1608—  .0071 

+  .004 

+  .OOIO         O 

.02            .14         .06 

5528 

Groomb  3476 

7-5 

26  33-454 

64.2 

+  I-9935+-°°5I 

+  .006 

+  .0019      o 

.14            .62         .32 

5529 

Pi  161 

6.6 

26  47.688 

83.7 

+  3.4642—  .0184 

+  .004 

+  .0050      o 

.11             .62         .20 

5530 

1,8838 

5-8 

26  54.827 

89.8 

+  3.9063-.  0413 

+  .009 

—  .0023       o 

.13        .88      .22 

553i 

Groomb  3480 

6.2 

27    0.478 

69.9 

+  1.9958  +  .005  1 

+  .006 

+  .0024       o 

.12            .56         .26 

5532 

/8  Cephei 

3-3 

27  22.311 

65.6 

+0.7909-  .0351 

-•039 

+  .OO22         O 

.03            .13         .06 

5533 

Groomb  3511 

6.2 

27  46.807 

71.8 

—  1.6246—  .2791 

-•574 

+  .0179+   9 

.06            .32         .14 

5534 

Pi  171 

7-4 

28    8.801 

75-9 

+  3.3200—  .0126 

+  .004 

+  .0019       o 

.13            .62         .25 

5535 

Groomb  3489 

5-7 

28  14.515 

78.4 

+  1.6479—  .0009 

+  .002 

—  .0002      o 

.12            .48         .19 

5536 

Groomb  3508 

7-7 

28  54-497 

59-9 

—  0.1974—  .1092 

-.167 

+  .0048+   3 

.14            .58         .32 

5537 

Br  2800 

6.0 

29  14.184 

77-7 

+  3-3765-  -0152 

+  .004 

—  .0018       o 

•io        -33      -!5 

5538 

Br  2801 

7-i 

29  17-597 

76.0 

+  3.3815-.  0152 

+  .004 

+  .0006      o 

•i5        -52      -23 

5539 

Arg  N  22436 

5-8 

29  24.556 

95-0 

+  2.  1  191  +  .0065 

+  .007 

+  .0036       o 

.11        .86      .17 

5540 

Pi  184 

6.7 

29  32.822 

85-4 

+  3-4393-  -0176 

+  .004 

+  .0055      o 

.11        .62      .19 

5541 

L  8842 

6-5 

30    4.063 

88.0 

+  4.8407—  .1158 

+  •057 

+  .0025      o 

.14        .84      .23 

5542 

Pi  190 

6.1 

30    4-397 

74-4 

+  3-I343--°o64 

+  .004 

—  .OOIO          0 

.14        .72      .29 

5543 

p  Cygni 

4.1 

3°  13-13° 

66.6 

+  2.  2529+.  0073 

+  .008 

—  .0026+   I 

.09        .34      .17 

5544 

v  Octantis 

3-7 

30  21.778 

87.6 

+  6.8523-.  3826 

+  .466 

+  .0140+16 

.12            .70         .20 

5545 

Br  2802 

6.0 

3°  23.149 

80.7 

+  3.4870—  .0196 

+  .004 

+  .0078       o 

.11             .48         .18 

5546 

Br  2809 

5-i 

30  41.408 

69.8 

+  2.  4470+.  OO68 

+  .007 

+  .0098       o 

•08        .33      .15 

5547 

Br  2803 

6-3 

30  48.635 

82.8 

+  3.6162—  .0259 

+  .006 

+  .0079       o 

.14        .78      .25 

5548 

Groomb  3500 

6-3 

31    0.662 

83-2 

+  2.  065  1  +  .OO62 

+  .007 

+  .0007       o 

.10        .54      .18 

5549 

t  Capricorn! 

4-7 

31  28.950 

72.2 

+  3-3652-.  0148 

+  .004 

+  .0006      o 

.06        .26      .11 

5550 

Dpt  2611 

6-3 

21  32  25.672 

80.2 

+  3.0828—  .OO47 

+  .004 

—  .0013       o 

.11        .48      .18 

CATALOGUE  OF  6l88  STARS  FOR  1900 


223 


no. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'  and  ioo  Ap.' 

Prob.  Errors. 
SEp.  loop.'  Sio 

Remarks. 

5501 

0           /               // 

—  69  56  14.76 

84.4 

//                     // 

+  i5-279+-5°5 

// 

-    .66 

—  .067+    i 

//               //           rr 

.14          -77       .24 

129  G  Pavonis 

5502 

—  10  10  28.08 

72.9 

+  15.  174+.  296 

-    .16 

-.174      o 

.08          .34       .15 

19  Aquarii 

5503 

-   3  59    8.42 

65-4 

+  15.  290+.  286 

-    -IS 

—  .070      o 

.11          .41      .21 

21  Aquarii 

5504 

+  25  4438-4S 

60.0 

+  I5-357  +  .243 

-    .09 

—  .007       o 

.12         .64      .34 

5505 

-38  iS39-°7 

87.6 

+  I5-35Q+-347 

-    .24 

—  .014+  I 

.14         .69      .21 

68  G  Microscopii 

5506 

—  42  58  51.60 

88.0 

+  15.398+.  3>4 

•    -27 

+  .007       o 

.10      .56    .16 

ft  767-    8?5  3"  145° 

5507 

-  22  50  40.37 

76-3 

+  15-434+  -3J3 

-    -19 

+  .023       o 

.05         .21       .09 

5508 

+  79SS  25-75 

65-7 

+  15.540-.  156 

-    -47 

+  .098+   6 

.IO         .39      .20 

S  2801.     8?i-8*8  i  '.'8  272° 

5509 

+  83  50  ii.  10 

61.4 

+  15.432-.  452 

—  .011+   i 

.12         .42      .24 

5510 

-2i  37  43-73 

77.0 

+  I5.4i8  +  .3io 

-    -19 

—  .027       o 

•°9      -37    -iS 

35  Capricorni 

55" 

+  46  16  51.62 

59-5 

+  15.494+.  200 

-    .06 

+  .045+     2 

.11      .40    .23 

55" 

+  36  14    6.81 

69.2 

+  15.441  +  .  221 

-    .08 

—  .Oil         O 

.08      .27    .14 

69  Cygni  * 

5513 

-22    14  33.91 

66.3 

+  I5-5I7  +  -3IQ 

-    .19 

-.008+  I 

.10      .30    .16 

36  Capricorni  b 

5SH 

-31  40  27.44 

81.6 

+  I5.509  +  -325 

—      .22 

—  .020      o 

.11       .60    .20 

i  G  Piscis  Aust 

55iS 

+  27  10  22.70 

78.6 

+  i5-56o+.237 

-      .09 

+  .O22          0 

•o?      -34    -13 

35  Vulpeculae 

S5i6 

+364055.15 

63-5 

+  15.543  +  .  218 

-      .08 

+  .004      o 

.08      .38    .20 

70  Cygni 

5517 

+48  24  0.57 

87.8 

+  15.572  +  .  190 

-      .06 

+  .031+     I 

.12         .60     .18 

S5i8 

+  52  27  50.60 

56.7 

+  15.560+.  175 

-      -05 

+  .OII          0 

.12         .46      .27 

SSiQ 

+  31  47  13.68 

63.0 

+  15.634+.  229 

-      .09 

+  .062+     I 

.15         .64      .34 

5520 

-1935    3-J2 

76-5 

+  15.566+.  302 

-      .18 

-  -°34      o 

.12         .51      .21 

5S2I 

-  U  43  44-91 

68.4 

+  15.607  +  .293 

-      -17 

-  .038       o 

.13         .48      .24 

5522 

+  23  12    0.93 

72.0 

+  IS-653  +  -24i 

—      .IO 

—  .004      o 

.08         .39      .I? 

2  Pegasi 

5523 

+  46    5  58.24 

71.2 

+  15.  780+.  195 

-      .06 

+  .104      o 

.06         .24      .11 

71  Cygni  g 

5524 

-41  37  11.58 

81.2 

+  15.684+.  340 

-      .26 

+  .008       o 

.12         .64      .22 

5525 

+  66  22  21.92 

68.1 

+  15.  666  +.099 

-      .04 

—  .014      o 

.08         .27      .14 

7  Cephei 

5526 

-3423    7-33 

81.1 

+  I5.672  +  .322 

-      -23 

—  .027       o 

.12         .63      .22 

2  G  Piscis  Aust 

5527 

-60  40.41 

66.8 

+  15.698+.  280 

-      -IS 

—  .007      o 

.02         .13      .06 

W.H.    u"3S"3I9° 

5528 

+  52  29  40.44 

57-8 

+  15.730+.  174 

~      -°5 

+  .OII         O 

.11         .44      .26 

S  2803.   9"  25"  288° 

5529 

-  25    i  56.04 

84.1 

+  15.724+.  307 

—      .20 

—  .008      o 

.10      .51    .17 

103  G  Capricorni 

5530 

—  45  17  26.48 

90.0 

+  15.  726+.  346 

-      .28 

—  .012       o 

.IO         .80      .19 

3  G  Gruis 

5531 

+  5231    3-4i 

62.2 

+  I5-75I  +  .I74 

-      -05 

+  .007      o 

.12         .50      .27 

f 

5532 

+  70    7  18.04 

63-1 

+  15.768  +  .065 

-      .06 

+  .005       o 

.02         .12      .06 

S28o6.    8M/3"250° 

5533 

+  80    5  20.  1  2 

71.9 

+  15.776-.  151 

-      .46 

—  .OO9+     2 

.08         .38      .16 

5534 

-1638  27.76 

72.8 

+  15.698  +  .  291 

-      .18 

—  .107       o 

.12         .46      .21 

5535 

+  60    i    6.15 

73-9 

+  15.816+.  141 

-      .04 

+  .006      o 

.10      .39    .17 

5536 

+  755749-83 

59-7 

+  15.818—  .024 

-      .16 

—  .028       o 

•ii      -55    -3° 

5537 

-2031  48.76 

81.6 

+  15.888+.  294 

~      -19 

+  .024      o 

•09      -35    -13 

37  Capricorni 

5538 

-  20  41  45.42 

69.6 

+  15.802  +  .  295 

~      -19 

—  .064      o 

.12         .36      .19 

38  Capricorni 

5539 

+  4932      1.98 

96.8 

+  15.896+.  .182 

-      -°5 

+  .023       o 

.12         .92      .17 

5540 

-23  53  57-42 

86.1 

+  i5.877  +  .3oo 

—      .20 

-.003      o 

.09         .58      .I? 

107  G  Capricorni 

5541 

-65  16  17.91 

87.1 

+  i5-905  +  -423 

-      -51 

-  .003       o 

.12         .71      .20 

40  G  Indi 

5542 

-   4  25  44.13 

74-i 

+  15.922  +  .  271 

-      .16 

+  .014      o 

.11         .58      .24 

5543 

+  45    858.36 

49.4 

+  15.821  +  .  193 

-      .O? 

-  -095       o 

.08         .29      .20 

5544 

-775°    J-94 

88.0 

+  15.  694+.  602 

-[1.24 

-.230+  I 

.IO         .71      .19 

5545 

-2637    3.42 

82.5 

+  15.  895  +  .303 

—  .20 

-.030+  I 

.IO         .45      .l6 

8  Piscis  Aust  (5  G) 

5546 

+  38    5.  .7-77 

67.8 

+  16.032  +  .  2IO 

-  .08 

+  .091+  I 

.06         .28      .13 

72  Cygni 

5547 

-33  2942.99 

82.2 

+  15.948+.  313 

—      .22 

+  .001+     I 

.12         .60      .21 

7  Piscis  Aust  (6  G) 

5548 

+  51  15    9.46 

80.6 

+  I5-957  +  .I76 

-      .06 

—  .001       o 

.09         .44      .l6 

5549 

-19  54  51.22 

70-3 

+  15.981  +  .290 

-      -19 

—  .002       o 

.06         .26      .12 

5550 

—   o  50  19.80 

79-3 

+  16.015  +  .  263 

-      -IS 

—  .017       o 

•09       -33     -J4 

22809.    Si's  31"  163° 

224 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    IQOO 


no. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i  and  100  A  p 

Prob.  Errors. 
a  Ep.      100  |i     a  10 

M 

h     m          s 

s               s 

s 

s 

//              tt           it 

5551 

£  Aquarii 

4-8 

21   32   25.743 

75-6 

+   3.1969—  .0082 

+  .004 

+  .0075       o 

.04           .21         .08 

5552 

Br  2812 

6-3 

32  44.709 

54-o 

+  2.9893—  .0019 

+  .005 

+  .0035       o 

•14           -56        -34 

5553 

Br  2818 

5-2 

32  S6-387 

84.6 

+    2.  40l6+.  OO72 

+  .008 

—  .0004      o 

.04           .28        .08 

5554 

Groomb  3513 

9.0 

32  58-560 

64.8 

+  1.  8485  +  .0036 

+  .006 

+.0087+  I 

.16           .64        .33 

5555 

Br  2814 

5-5 

33    4-629 

71.1 

+    2.  8062  +  .OO25 

+  .006 

+  .0070      o 

.11            .51         .23 

5556 

Br  2813 

5-9 

33  3I-442 

76.3 

+    3.0057—  .0022 

+  .005 

+  .0076       o 

.10       .32      .15 

5557 

Pi  228 

7.0 

33  45-°12 

70.8 

+    2.  4320+.  OO72 

+  .008 

+  .0013       o 

.14          .60        .27 

5558 

Arm  4714 

6.0 

34  21.509 

85-1 

+    2.  7948+.  0029 

+  .006 

+  .0083       o 

.11           .58        .18 

5559 

Br  2816  m 

7.2 

34  22.227 

67.9 

+    3.  0950-  .0046 

+  .005 

+  .0157       o 

•'3        -57      -27 

556o 

Br  2817 

5-4 

34  28.859 

60.6 

+    3-0455-  -0035 

+  .005 

—  .0020       o 

•"            -57         -31 

556i 

Pi  241 

7.2 

34  30-856 

73-8 

+    1.5980—  .OO24 

.OOO 

+  .0069—    I 

.14        .62      .26 

5562 

y  Capricorni 

3-7 

34  33-098 

67.8 

+    3-3294-  -0131 

+  .004 

+  .0131       o 

.04           .21         .IO 

5563 

Br  2830 

4-9 

35  14-269 

68.4 

+    I.6lI7—  .OOI5 

+  .OO  I 

+  .0007       o 

•09        -34      -17 

5564 

X  Octantis 

5-5 

35  36-11- 

75-8 

+    9.685  1.076- 

+  .030-  -14 

.06         .69       .24 

5565 

Pi  248 

6.2 

35  5J-449 

85-3 

+    1.  8605  +  .O040 

+  .006 

+  .0005       o 

.05      .32     .09 

5566 

Br  2820 

5-4 

36    6.690 

66.9 

+    3.2670—  .OII2 

+  .005 

—  .0083  +     2 

.09        .32      .16 

5567 

Br  2826 

5-4 

36  iS-SS2 

73-7 

+    2.3502  +  .0078 

+  .008 

+  .0047      o 

.08        .40      .17 

5568 

Br  2819 

5-4 

36  I9-I35 

78.6 

+   3-4235-  -Pi  74 

+  .005 

+  .0067       o 

.08      .39    .15 

5569 

Br  2822 

6.0 

37    4-155 

64.6 

+  3.  0607  -.0039 

+  .005 

—  .0003       o 

•14        -45      -25 

5570 

K  Capricorni 

4.8 

37    4.517 

68.7 

+  3-3560-  .0145 

+  .005 

+  .OIOO         O 

.08        .28      .14 

5571 

Pi  256 

7-5 

37  I5-233 

64.8 

+   1.  8606  +.0042 

+  .O06 

-  .0054      o 

.18        .57      .32 

5572 

Br  2824 

5-6 

37  iS-354 

79.1 

+    3.0025—  .0022 

+  .005 

+  .0015       o 

.12            .36         .l6 

5573 

Br  2831 

6.2 

37  32-877 

75-5 

+    2.4103  +  .  0078 

+  .008 

—  .0009      o 

.11             .36         .16 

5574 

Br  2823 

6.2 

37  37-101 

65.6 

+   3.  2784-  .0117 

+  .005 

—  .0003      o 

.12            .40         .22 

5575 

Pi  243 

6.4 

37  37-979 

77-2 

+   3-3625-  -0150 

+  .005 

+  .0058      o 

.12            .58         .23 

5576 

L  6460 

6.7 

37  38-82- 

73-2 

+68.391—88.544- 

+  .017-  +97- 

.05            .28        .12 

5577 

Br  2854 

7-4 

37  46.396 

70.6 

+   0.8545-  .0337 

—  .042 

+  .0210+  8 

•08           .33         .15 

5578 

L8896 

6-5 

38  20.361 

94-2 

+   3.7081  —  .0322 

+  .009 

+  .0085       o 

.14         1.  12          .23 

5579 

Br  3836 

5-8 

38  21.429 

66.4 

+  2.  4095  +  .007  9 

+  .008 

+  .0014       o 

.13            .42         .22 

558o 

Br  2845 

4.8 

38  32.614 

61.4 

+  2.I268  +  .OO76 

+  .009 

+  .0006      o 

.08            .27         .15 

558i 

Br  2828 

6.2 

38  33-386 

72-3 

+  3.2805—  .0119 

+  .005 

—  .0021       o 

.11             .36         .17 

5582 

t  Piscis  Aust 

4.4 

38  59-535 

82.5 

+  3-5855-  -0259 

+  .007 

+  .0029      o 

-09            -SI          .1? 

5583 

Br  2841 

5-6 

39    5-286 

66.3 

+    2.  4074  +.0080 

+  .008 

—  .0019       o 

.15            .48         .26 

5584 

t  Pegasi 

2.4 

39  16.479 

71-5 

+    2.9464—  .OO05 

+  .OO6 

+  .0017       o 

.02            .15         .06 

5585 

Br  2843 

5-8 

39  17.496 

84.8 

+  2.4778  +  .0076 

+  .008 

+  .0032      o 

.11             .46         .l6 

5586 

Br  2833 

7-5 

39  35-284 

77-5 

+  3.2043—  .0088 

+  .005 

+  .0034       o 

.13            .69         .26 

5587 

H  '  Cygni 

4-9 

39  40-165 

76.4 

+  2.  6803  +  .0060 

+  .007 

+  .0214+     2 

.08            .27         .12 

5588 

/i3Cygni 

5-9 

39  40.366 

82.8 

+  2.6761  +  .0059 

+  .007 

+  .0172+     2 

.13           .57         .20 

5589 

Br  2834 

5-4 

39  40.380 

76.6 

+  3.2022—  .0088 

+  .005 

+  .0007       o 

.09           .39        .16 

5590 

Br  2837 

4-5 

39  46.579 

71.4 

+    2.8404+.OO22 

+  .006 

+  .OOI2         O 

.13           .52         .24 

5591 

Pi  267 

7-7 

39  52.976 

70.8 

+  2.6581  +  .0056 

+  .007 

—  .0008       o 

.13           .48        .23 

5592 

K  Pegasi  m 

4.2 

40    6.976 

77-2 

+    2.  7145  +  .0047 

+  .007 

+  .0024       o 

.05            .34         .12 

5593 

fi  Cephei 

Var. 

40  26.829 

69.0 

+  1.  8335  +.0040 

+  .OO6 

—  .0001       o 

.16            .70         .33 

5594 

Br  2856 

4-9 

40  27.485 

78-5 

+  0.8951-.  0334 

—  .041 

+  .O24O+     2 

.04        .28      .10 

5595 

Br  2838 

6.4 

40  56.223 

71.6 

+  3.  2039-  .0088 

+  .005 

+  .0008      o 

.13            .44         .21 

5596 

X  Capricorni 

5-6 

41    9.161 

78-3 

+  3-2333-  -OIOo 

+  .005 

+  .0016      o 

.07             .32         .12 

5597 

Br  2846 

7-4 

41  18.686 

75-7 

+  3.  2379-  .0100 

+  .005 

+  .0018       o 

.14            .62         .25 

5598 

Br  2851 

6.8 

41  24.481 

69.7 

+    2.  7170+.  0048 

+  .007 

+  .OOIO          0 

•i5        -84      -37 

5599 

Br  2850 

5-6 

41  28.284 

64-5 

+    2.  7584+.  0040 

+  .006 

+  .0005      o 

.14      .56     .29 

5600 

8  Capricorni 

2.8 

21  4i  3r-354 

68.3 

+  3-3l63--oi25 

+  .005 

+  .0179+  I 

.04        .20      .09 

5552  2  App.     7«4  39"  349°. 

5559  ft  i21*-     7I!'7-8I?2  o'.'s  2/0°,  slow  binary. 


5536  h  941.     I2M  26"  337°,  rcl.  mot. 
5565  2  2816.    8M  12"  120°;  8M  20"  339° 


CATALOGUE   OF   6 1 88  STARS   FOR   IpOO 


225 


Ho. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

I/  and  i  oo  AH/ 

Prob.  Errors. 
SEp.  loop.'  Sio 

Remarks. 

Of               tl 

/t            // 

// 

// 

//              ft           n 

5551 

-   8  18  10.08 

73-5 

+  16.009+   -274 

-.16 

—  .024+    I 

.04          .19      .08 

5552 

+  6  10    8.08 

48.7 

+  16.044+   -255 

-•»3 

-  .005      o 

.11          .43       .29 

3  Pegasi  * 

5553 

+  39  57  S°-86 

75-i 

+  16.068+   .203 

-.08 

+  .008      o 

.06      .24    .10 

74  Cygni 

5554 

+  57    i  20.63 

56.6 

+  16.065+   -155 

-.04 

+  .004+   I 

.13         .47      .28 

22813.    g^s  10"  273° 

5555 

+  1852    6.70 

7i-5 

+  16.081+   .238 

—  .11 

+  .014+  I 

.09         .38      .I? 

5  Pegasi 

5556 

+   5  19  13.09 

72-3 

+  16.116+   .255 

-.14 

+  .026+    I 

.09         .30      .14 

4  Pegasi  * 

5557 

+  3852    0.87 

66.8 

+  16.098+   .204 

-.08 

—  .004      o 

.12         .48      .24 

5558 

+  19  48  50.24 

85-4 

+  16.136+  .236 

—  .11 

+  .003+  I 

.12         .57      .18 

5559 

—  o  30  12.26 

66.3 

+  16.149+  -262 

-•15 

+  .015+  I 

.11         .41      .21 

24  Aquarii  * 

556o 

+   i  47  37-83 

56.3 

+  16.057+   -256 

-.14 

-  .083       o 

•13      -53    -3i 

25  Aquarii  d 

556i 

+  61  51    2.85 

61.5 

+  16.268+   .132 

-.04 

+  .126+  I 

.11      .41    .23 

5562 

-i?    650.75 

69.1 

+  16.123+   -282 

-.18 

—  .021+   I 

.04      .20    .09 

5563 

+  61  37  S0-?1 

63.2 

+  16.181+   .132 

-.04 

+  .O02          O 

.08      .28    .15 

9  Cephei 

5564 

-83  1043.43 

76.2 

+  16.178+   .828 

-.020+  3 

.05        .60     .21 

hS278.     7"72"875° 

5565 

+  57    2  12.15 

75-2 

+  16.213+  •I53 

-•°5 

+  .002      o 

.06      .24    .10 

£1143.   I4M2"325°" 

5566 

-14  29  37.20 

71.7 

+  15.916+  .272 

-.18 

-.308-  I 

.08        .30     .14 

42  Capricorn! 

5567 

+  42  49  10.91 

70.2 

+  16.245+  .195 

-.07 

+  .013      o 

.07        .31      .14 

75  Cygni  * 

5568 

-23  42  55.17 

82.5 

+  16.142+  .286 

—  .20 

-•093+  I 

.08        .34     .12 

41  Capricorni 

5569 

+  o  49  46.78 

72-3 

+  16.259+  -254 

-•15 

—  .014      o 

.10      .34    .16 

26  Aquarii 

5570 

—  19  19  19.82 

60.5 

+  16.266+  .279 

-.19 

—  .007+  I 

.08        .26     .15 

5571 

+  57    7  38.73 

73-6 

+  16.263+  ^S1 

-•05 

—  .019      o 

.14        .45      .29 

2  2819.    8*5  13"  58° 

5572 

+  5  13  28.05 

75-4 

+  16.280+  .248 

-.14 

-.003      o 

.11         .34     .16 

7  Pegasi 

5573 

+  40  21    3.56 

66.0 

+  16.247+  •I98 

-.08 

-.051      o 

.09        .26     .14 

76  Cygni 

5574 

—  14  51  25.08 

65-9 

+  16.328+  .271 

-.18 

+  .027      o 

.11         .37      .20 

44  Capricorni 

5575 

-20      439-25 

76.4 

+  16.280+  .279 

-.19 

—  .022      o 

.12         .54      .22 

5576 

-89   I9      3.45 

74.8 

+  16.263  +  5.799 

—  .041+  I 

.04         .28      .11 

54  G  Octantis  B 

5577 

+  7051   25-40 

69.6 

+  16.211+  .067 

-.06 

-.098+    2 

.07         .31      .14 

5578 

-39      022-54 

93-4 

+  16.180+  .307 

-•25 

-.158+  I 

.16    1.18    .25 

ii  G  Gruis 

5579 

+  40  37  13.33 

61.2 

+  16.343+  .197 

-.08 

+  .004      o 

.11         .38      .22 

77  Cygni 

558o 

+  5043  59.14 

54-i 

+  16.347+  .173 

-.06 

—  .001      o 

.07         .23      .15 

80  Cygni  IT  l 

558i 

—  15  12  28.OI 

74-7 

+  16.348+  .269 

-.18 

—  .001      o 

.IO         .46      .19 

45  Capricorni 

5582 

-33  28  55-35 

75-i 

+  16.285+  .295 

—  .22 

-.086      o 

.09         .42      .17 

5583 

+  4041  51.57 

59-8 

+  16.362+  .195 

-.08 

—  .014      o 

.12         .40      .23 

5584 

+  9  24  58.88 

70.1 

+  16.384+  .240 

-•13 

—  .001       o 

.02         .14      .06 

5585 

+  37  4932-23 

78.5 

+  16.386+  .201 

-.08 

.000      o 

.10      .38    .15 

79  Cygni 

5586 

-   9  29  46.59 

76.2 

+  16.418+  .262 

-•17 

+  .017      o 

.11         .54      .21 

5587 

+  28  17  26.98 

66.0 

+  16.165+  -2I9 

-.09 

—  .240+     2 

.06         .22      .12 

1  2  2822.    2'/6  and  diminish- 

5588 

+  28  17  25.28 

74-8 

+  16.179+  -219 

-.09 

—  .226+    I 

.12         .54      .22 

J     ing;  slow  binary. 

5589 

-   9  32  30.59 

74-5 

+  16.403+  .261 

-•17 

—  .002       o 

-08         .35      .15 

46  Capricorni  c  l 

5590 

+  1653  27.58 

68.5 

+  16.387+  .231 

—  .12 

—  .023      o 

.10      .39    .19 

9  Pegasi 

5591 

+  28  19  26.21 

65-4 

+  16.356+  .215 

-.09 

—  .060      o 

.10         .41      .21 

5592 

+  25  ii    6.68 

75-o 

+  16.429+    .220 

—  .IO 

+  .OO2         O 

.04         .25      .IO 

* 

5593 

+  58  19  16.65 

60.9 

+  16.442+     .146 

-•05 

—  .002      o 

•15      -65    -35 

4M  to  5M  ?* 

5594 

+  7051    3.26 

74.6 

+  16.541+    .070 

-.06 

+  .097+    2 

.04      .24    .10 

ii  Cephei 

5595 

-   9  44  14-57 

69.2 

+  16.478+    .260 

-•17 

+  .010      o 

.10      .38    .18 

47  Capricorni  c  * 

5596 

-ii  49  38.25 

68.8 

+  16.468+    .26l 

-•17 

—  .Oil         0 

.06         .24      .12 

5597 

—  12    9  21.61 

74.0 

+  I(5.355+  -262 

-•17 

-.132       o 

.12         .46      .20 

50  Capricorni 

5598 

+  25    720.99 

65-4 

+  16.493+  -218 

—  .IO 

+  .OOI          0 

•13      -77    -37 

5599 

+  2^-29   I4.8l 

64-5 

+  16.481+    .221 

—  .11 

—  .014      o 

.11     .47   .24 

12  Pegasi 

5600 

-16  34  52.16 

67.8 

+  I6.2O2+    .269 

-.18 

-.295+     2 

.04      .18    .09 

5567  Clark.     IOM  a','6  325°;  9*5  54"  255°. 


5592  /3  989. 
5593  ft  °9o-     "M  19 


4^7-5^4  <  °".4,  binary,  n  yrs.  ±  ;  IOM  12"  299° 


226 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  100  A  p 

Prob.  Errors, 
a  Ep.  100  |i  a  10 

M 

h  in    s 

8         » 

9 

s 

"     //    » 

5601 

L  8912 

5-8 

21  4i  45-593 

88.0 

+  3.9215—  .046l 

+  .OI4 

+  .0144+  I 

.12     .75    .20 

5602 

Br  2852 

6.6 

41  50.694 

70.8 

+  2.  7282  +  .0049 

+  .007 

+  .0108   o 

•!5    -75   -33 

5603 

Br  2861 

5-5 

41  51.128 

64.2 

+0.7495-  .0414 

--OS3 

—  .0099—  I 

.08   .28   .15 

5604 

6  Piscis  Aust 

5-2 

41  52.129 

78.1 

+  3-53I3--0239 

+  .006 

—  .0028   o 

.11    .54   .20 

5605 

Br  2849 

5-6 

42  9.732 

76.9 

+  3-0439-  -°032 

+  .005 

+  .0009   o 

.09   .30   .13 

5606 

L  8903 

5-8 

42  15.020 

91.4 

+4.7050-.  1  1  47 

+  .067 

—  .0012   o 

.18   i.  ii   .27 

5607 

o  Indi 

5-6 

42  19.844 

82.0 

+  5.  1500-.  1651 

+  .126 

—  .0084+  2 

.12     .66    .22 

5608 

v  Cephei 

4-5 

42  33-804 

7°-3 

+  1.7302  +  .0019 

+  .004 

—  .0003   o 

.05     .22    .10 

5600 

Br  2855 

4.4 

43  5-870 

83.6 

+  2.2I27  +  .0086 

•+•009 

+  .0004   o 

.04     .26    .08 

5610 

Pi  290 

7-i 

43  47-575 

69-5 

+3.1454—  .0068 

+  .005 

—  .0038   o 

.15     .62    .29 

5611 

L  8934 

7-3 

44  7-891 

85.8 

+  3.4685—  .0208 

+  .006 

+  .0013   o 

.13   .86   .24 

5612 

Groomb  3571 

7-4 

44  10.088 

68.3 

+2.4783  +.0082 

+  .008 

—  .0004   o 

.11    .63   .29 

5613 

Pi  291 

6.4 

44  16.836 

75-i 

+3.  2471-.  0107 

+  .005 

—  .0001   o 

.13     .52    .22 

5614 

Br  2862 

5-8 

44  28.291 

61.3 

+  1.7691  +  .0030 

+  .005 

—  .0008   o 

.14     .50    .28 

5615 

Groomb  3590 

6.7 

45  I5-336 

67.0 

+  1.0688-  .0236 

—  .027 

—  .OOI  I    O 

.09     .40    .19 

5616 

Br  2858 

5-5 

45  23-I57 

72.4 

+  2.8535  +.0024 

+  .006 

+  .0051   o 

.09     .30    .14 

56i7 

Br  2859 

5-3 

45  25-235 

62.9 

+  2.  6518+.  0064 

+  .008 

+  .0020   o 

.09     .42    .22 

5618 

Pi  3°3 

6.4 

46  8.629 

80.9 

+3-3368-  .0143 

+  .006 

+  .0094   o 

.13     .80    .26 

5619 

Br  2865 

6.7 

46  23.293 

79-5 

+  1-7557  +  .0029 

+  .006 

+  .OOO2    O 

.IO     .51    .19 

5620 

Groomb  3591 

6.8 

46  49.  154 

69.2 

+  1  -3959-  -0083 

—  .OO7 

-.0030+  I 

•IS    -54   -27 

5621 

Pi  312 

5-9 

46  52.497 

75-4 

+  2.8i7i  +  .oo33 

+  .007 

+  .0024   o 

.16   .72  .30 

5622 

Pi  3H 

7-i 

47  32.107 

68.6 

+  3.1302—  .0061 

+  .005 

+  .0009   o 

.15   .62  .30 

5623 

p  Capricorni 

5-3 

47  50-70° 

74-i 

+  3.2754—  .0112 

+  .005 

+  .02  1  1    O 

.04   .20   .08 

5624 

•y  Gruis 

3-i 

47  52-562 

82.0 

+  3.6474-  .0310 

+  .009 

+  .0093   o 

.07     .36    .12 

5625 

Br  2863 

5-8 

48  2.017 

70.6 

+  2.  6756+.  OO62 

+  .008 

-  .0045   o 

.10   .34   .17 

5626 

PulkM  3196 

6.9 

48  15-253 

80.  i 

+  3.2IO8—  .0093 

+  .005 

+  .0001   o 

.08     .42    .15 

5627 

Br  2864 

5-i 

48  30.681 

78.2 

+  2-7272  +  .0053 

+  .007 

+  .0001   o 

.03     .21    .07 

5628 

Groomb  3598 

6.9 

48  37-4I3 

92.0 

+  2.0296+.  0080 

+  .009 

+  .0049   ° 

•IS   -58   .18 

5629 

Br  2866 

6.1 

48  37-975 

69.8 

+  2.0264+.  0080 

+  .009 

+  .0018   o 

.11     .38    .18 

5630 

PulkM  3200 

5-8 

48  55-031 

84-7 

+  2.82i6+.oo34 

+  .007 

+  .OOII    O 

.11     .52    .18 

5631 

Pi  320 

6.1 

48  57.016 

81.3 

+  3.1352—  .0062 

+  .005 

+  .0028   o 

.07     .52    .16 

5632 

Br  2868 

7-i 

49  44-8i7 

62.5 

+  2.  0194  +.0080 

+  .009 

+  .0032   o 

.08     .34    .18 

5633 

Br  2867 

6.9 

49  49.464 

59-6 

+  2.  0983  +.0088 

+  .OIO 

—  .0015   o 

.12     .52    .29 

5634 

L  8964 

5-8 

5021.773 

85-4 

+  3.6245-  .0308 

+  .OIO 

—  .0020   o 

.13    .68   .21 

5635 

8  Indi 

4.6 

51  6.916 

81.0 

+  4.1143—  .0660 

+  .029 

+  .0064   o 

.12     .63    .22 

5636 

L  8927 

7.0 

51  25.900 

85.0 

+  6.4502—  .3910 

+.596 

—  .0080+  I 

.11     .78    .22 

5637 

L8959 

6-5 

5i  25-989 

77-6 

+  4.2775—  .0812 

+  .041 

—  .0014   o 

.15     .70    .27 

5638 

Br  2871 

7-i 

51  26.314 

67.2 

+  2.I298  +  .OO94 

+  .OIO 

+  .0169+  I 

.12     .52    .26 

5639 

Br  2872 

6.1 

Si  3I-430 

68.1 

+  2.0125  +  .0082 

+  .009 

—  .0009   o 

.07     .26    .13 

5640 

Br  2880 

6.9 

Si  36-9S2 

76.1 

+0.7267-.  0475 

—  .069 

+  .OIO7+  2 

.05     .28    .11 

5641 

Br  2869 

5-7 

52  3-791 

61.5 

+  2.  9250+.  OOO8 

+  .007 

—  .0020   o 

.09     .34    .19 

5642 

Radcl  5481 

6.0 

52  53-689 

92.6 

+  1.5752—  .0020 

.000 

+  .0016   o 

.15     .82    .21 

5643 

Br  2870 

6-5 

52  58-792 

69.6 

+  3.1469—  .OO66 

+.006 

+  .0019   o 

.11     .46    .22 

5644 

Pi  344 

7-4 

53  0.914 

68.2 

+  3-  2372-.  0106 

+  .006 

+  .0007   o 

•15     -63    -30 

5645 

Pi  343 

6.6 

53  9-224 

81.6 

+  3-3523-  -Ol6o 

+  .006 

+  .OOIO    0 

.08     .57    .18 

5646 

L  8976 

5-7 

53  15-261 

87.0 

+  3.6419-  .0322 

+  .OII 

+  .0037   o 

.15     .78    .23 

5647 

Br  2894 

7.0 

53  18.668 

76.6 

—  0.5601—  .1826 

-•385 

+  .0041—  1 

.10    .39   .16 

5648 

L  8982 

7-3 

53  39-48i 

84.8 

+  3-3932-  -Ol8o 

+  .006 

+  .0046   o 

.12     .84    .24 

5649 

L  8984 

7-7 

53  40.423 

89.1 

+  3-3793-  -0172 

+  .006 

+  .0048   o 

.12     .64    .l8 

5650 

Pi  360 

5-4 

21  53  49.897 

72.0 

+  1.6899  +.0017 

+  .004 

—  .0014   o 

.OQ     .46    .20 

5601     9M  46"  o°,  relative  motion. 


CATALOGUE  OF  6188  STARS  FOR  1 900 


227 


ffo. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'andiooAp.' 

Prob.  Errors. 
SEp.  100  K.'  Sio 

Remarks. 

5601 

o        /           // 

-47  45  30.65 

87.0 

//          // 

+  16.202  +  .  318 

II 

~    -3° 

// 

-.307+    I 

it         ft       it 
.10      .64    .18 

13  G  Gruis  * 

5602 

+  25    5  59-79 

67.6 

+  16.527  +  .  219 

—      .10 

+  .013+    I 

•13      -75    -34 

5603 

+  71  51  42-11 

62.6 

+  16.483  +  .054 

•    -07 

-.031-    I 

.08      .28    .16 

78  Draconis 

5604 

—  31  21  40.15 

78.2 

+  16.509  +  .  285 

—      .22 

—  .006       o 

.11      .53    .20 

115296.  i  IM  36"  339° 

5605 

+     2   13  24.47 

74-3 

+  16.526  +  .  244 

-      -IS 

-  .003       o 

.08         .25      .12 

27  Aquarii,  n  Pegasi 

5606 

-65  1033.76 

86.6 

+  i6.532  +  .38i 

-      .48 

—  .002      o 

.14         .75      .22 

54  G  Indi 

5607 

-70  540.31 

84-3 

+  i6.538+.4i7 

-      .62 

.000—    I 

.11         .63      .20 

5608 

+603933.25 

62.5 

+  16.549+.  135 

-      .04 

.000      o 

.05         .I?      .09 

5609 

+  48  50  48.01 

79.1 

+  16.572+..  174 

-      .06 

-  .003       o 

.04         .19      .07 

81  Cygni  v2 

5610 

-   5  52    3-25 

70.8 

+  16.565  +  .  249 

-      .16 

—  .044       o 

•  13      -54    -25 

5611 

-27  52  10.45 

86.2 

+  I6.595  +  .276 

—      .21 

-.031       o 

.14    1.07    .29 

17  G  Piscis  Aust 

5612 

+  38  29  29.44 

65-6 

+  16.622  +  .  195 

-      .08 

—  .006       o 

.11      .53    .26 

5613 

—  13  ii  21.09 

77-7 

+  16.645  +  .  257 

-      .18 

+  .OI2          O 

.11      .48    .19 

5614 

+  60  13  42.54 

54-7 

+  16.645  +  .  137 

-      .04 

+  .OO2          0 

.11         .34      .22 

12  Cephei 

5615 

+  6941  13.23 

69-3 

+  16.656+.  079 

-      -05 

—  .025      o 

.O?         .35      .16 

5616 

+  16  49  14.08 

72.2 

+  16.625  +  .  224 

—     .12 

—  .062      o 

.08         .31      .14 

13  Pegasi 

5617 

+  29  42  30.28 

57-2 

+  16.662  +  .207 

-     .09 

—  .027       o 

.09         .39      .23 

14  Pegasi 

5618 

-19    5  21.03 

78.2 

+  16.638  +  .262 

-     .19 

-.086+    I 

.13         .57      .22 

5619 

+  604823.83 

75-8 

+  16.719+.  134 

-     .04 

—  .017      o 

.09         .44      .I? 

5620 

+  66  19  36.50 

59-4 

+  16.685  +  .104 

-     .04 

—  .071       o 

.13         .42      .25 

22836.   10""  n"  153° 

5621 

+  19  21   27.16 

64.6 

+  16.773  +  .  218 

—     .11 

+  .014      o 

.14         .56      .29 

W.H.  loM  ,o"  94°;  uM  34"  32a° 

5622 

-    4  27  44.70 

69.2 

+  16.805  +  .242 

-     .16 

+  .014      o 

.13         .50      .24 

5623 

—  14    i  21.44 

72.2 

+  16.814+.  255 

-     .18 

+  .009+    2 

.04        .20     .09 

5624 

-37  50    6.90 

75-8 

+  16.790+.  283 

-     .24 

—  .017+     I 

.O?         .30      .12 

5625 

+  28  19  30.64 

67.4 

+  16.740+.  205 

-     .09 

-.074      o 

.10     .32    .17 

15  Pegasi 

5626 

—  10  46  57.09 

80.6 

+  16.826+.  247 

-     -17 

+  .OOI         0 

.08         .44      .15 

5627 

+  25  27  i6.ii 

76.0 

+  16.838+.  209 

—     .IO 

+  .OOI         0 

.04         .22      .08 

1  6  Pegasi 

5628 
5629 

+  55  19  17-33 
+  55  1935-86 

81.6 
62.3 

+  16.859+.  154 
+  16.842  +  .  153 

-     -05 
-     -05 

+  .017       o 

—  .OOI         O 

.13         .42      .18 
.IO         .28      .l6 

J  52840.    19"  195° 

5630 

+  19  ii  47.81 

79-7 

+  16.866+.  216 

—     .11 

+  .OIO         0 

.11         .45      .18 

5631 

—   4  44  42.88 

75-8 

+  16.767  +  .  240 

-     .16 

—  .091       o 

.07         .42      .l6 

5632 

+  55  44  27.37 

5°-4 

+  16.902  +  .  152 

-     -05 

+  .007       o 

.09         .36      .23 

5633 

+  53  3i  32-92 

57-8 

+  16.886+.  157 

-     .06 

-  -013       o 

.10      .43    .24 

5634 

-37  4339-01 

83.8 

+  16.922  +  .  276 

-     .24 

—  .002       o 

.12         .6l      .20 

20  G  Gruis 

5635 

-5528    5.19 

78.8 

+  i6-936+.3i3 

-    -34 

—  .024      o 

.IO         .47      .l8 

5636 

-78    825.72 

85.8 

+  17.  ooi  +  .492 

-1.14 

+  .027-  I 

.09         .73      .20 

64  G  Octantis 

5637 

—  59  29  20.19 

79-2 

+  I7-003  +  .324 

-    -38 

+  .029      o 

.13         .64      .24 

61  G  Indi  («l) 

5638 

+  53  27  33-52 

63-5 

+  17.056+.  160 

-    .06 

+  .081+  I 

.11         .44      -23 

5639 

+  56    8  15.12 

63.0 

+  16.975  +  .  149 

-    -05 

—  .004      o 

.06         .26      .14 

13  Cephei  (p) 

5640 

+  73  13  45-o8 

76.0 

+  I7-OI2  +  .O5O 

-    .07 

+  .029+  I 

.05      .25    .10 

79  Draconis 

5641 

+  11  36   4.55 

62.0 

+  16.983  +  .  218 

-    -13 

—  .021      o 

.09         .36      .20 

17  Pegasi 

5642 

+  64  50  44.95 

92.8 

+  17.045  +  .  114 

-    .04 

+  .003      o 

.12        .69     .17 

OS  457.  8?5  i'-'3  246° 

5643 

-   5  53  56-64 

73-i 

+  16.934+.  234 

-    .16 

—  .112          O 

.09        .42      .l8 

5644 

-13    836.21 

69.4 

+  I7-U7  +  .24I 

-    .18 

+  .069      o 

.13        .49     .24 

5645 

-2i  3936.56 

80.4 

+  17.050+.  250 

-    .19 

—  .004      o 

.08        .49     .17 

134  G  Capricorn! 

5646 

-38  52  22.30 

83.1 

+  17.048+.  272 

-    -25 

—  .01  1      o 

.13         .58      .20 

24  G  Gruis 

5647 

+  79    441-63 

76.7 

+  17.087—  .050 

-    -24 

+  .026      o 

.09         .32      .14 

5648 

-241837.39 

87.0 

+  17.073  +  .  252 

—    .20 

—  .004      o 

.13      I.O2      .27 

97  G  Aquarii 

5649 

-2321    1.39 

82.7 

+  17.090+.  251 

—      .20 

+  .OI2         O 

.11         .59      .20 

5650 

+  63    857-63 

69.6 

+  17.093  +  .  122 

-      .04 

+  .008      o 

'.08      .36    .16 

228 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

jd, 

H.  and  100  A  n 

Prob.  Errors. 
aEp.      loop     o  10 

M 

h    ra         a 

s               s 

s 

s 

//            //           it 

5651 

Paris  31310 

7-3 

21  54  15.161 

81.1 

+  2.  6509+.  OO7O 

+    .008 

—  .0295       o 

.08          .46        .16 

5652 

i]  Piscis  Aust  m 

5-6 

55    5-609 

76.2 

+3.4564—  .0217 

+    .008 

+  .OCM  I          O 

.07          .44        .16 

5653 

Br  2874 

6.1 

55    8.179 

59-9 

+  2.9969—  .0012 

+    .006 

+  .0003       o 

.13          .40       .24 

5654 

e  Indi 

4.9 

55  42.776 

82.5 

+4.6243-.  0763 

+    .036 

+  .4818-14 

.08          .60        .18 

5655 

Br  2875 

5-9 

55  58-018 

68.5 

+3.0709-  .0038 

+    .006 

+  .0001       o 

.12            .34         .18 

5656 

Br  2884 

6.8 

56    2.006 

76.2 

+  2.0061  +.0088 

+    .OIO 

+  .0007       o 

.12            .45          .20 

5657 

Br  2877 

6.0 

56  11.398 

53-o 

+  2.9770—  .0006 

+    .006 

-.0015       o 

•16        -54      -35 

5658 

Br  2879 

5-8 

56  13.014 

82.0 

+  2-92i8  +  .ooi4 

+    .007 

+  .0036      o 

.05         .30      .10 

5659 

Pi  361 

6.7 

56  41-623 

81.7 

+3.  3074-  .0137 

+    .006 

+  .0075      o 

.08            .69         .21 

5660 

Br  2878  m 

6.9 

56  58.207 

72.9 

+3.2875-.  0131 

+    .006 

+  .0004       o 

.08            .30         .14 

5661 

Br  2900 

5-2 

57  49-386 

68.9 

+0.8762—  .0372 

—    -OS0 

—  .01-50+     2 

.06           .26         .12 

5662 

Br  2882 

5-8 

58    0.874 

67-7 

+3.  1581-.  0072 

+   .006 

+  .0024      o 

.08           .34         .17 

5663 

o  Aquarii 

4-7 

58    8.527 

68.3 

+3.  1045-.  0050 

+    .006 

+  .0009      o 

.08           .27         .14 

5664 

Pi  383 

5-9 

58  10.603 

64.8 

+  2.  1925  +  .OIO8 

+    .OI2 

—  .0002      o 

.12            .57         .28 

5665 

Br  2885 

6.0 

58  24.625 

54-9 

+  2.  9430  +.OOO8 

+    .007 

+  .0009      o 

•16        .56      .35 

5666 

Br  2881 

6.8 

58  38-°39 

81.9 

+  3.4691-.  0230 

+    .009 

+  .0007      o 

.13      .78     .26 

5667 

Br  2892 

5-6 

58  42.866 

74-9 

+  2.OII7  +  .0092 

+    .OIO 

—  .0008      o 

.09      .30     .14 

5668 

L  9001 

5-9 

58  49-685 

84.1 

+  4.2498-.  0834 

+  -047 

+•.0042       o 

.18      .78     .27 

5669 

Groomb  3655 

5-7 

58  54-498 

73-4 

+  2.  4169+.  0109 

+  .on 

—  .0010      o 

.11      .56     .23 

5670 

Pi  378 

6.1 

58  55-582 

81.4 

+  3.42OO—  .O2O2 

+  .008 

—  .0001       o 

.13           .57         .21 

5671 

Br  2887 

5-5 

21  59  38.860 

69.8 

+  3-0875-  •°°44 

+  .006 

—  .OOI  I          O 

.11             .39         .20 

5672 

X  Gruis 

4.6 

22      0      5.385 

84-5 

+  3.6304-  .0335 

+  .012 

—  .0028+    I 

.10        .54      .17 

5673 

Pulkw  3231 

6.0 

o  36-235 

92.2 

+  2.  7480+.  0064 

+  .008 

+  .0028      o 

.13           .70        .18 

5674 

v  Pegasi 

5-i 

o  38.191 

68.8 

+  3.0265—  .OOl8 

+  .006 

+  .0073       o 

•13           -52         -25 

5675 

Br  2902 

6.9 

o  38-383 

75-o 

+  i.952i  +  .oo8s 

+   .OIO 

+  .OOII         O 

.11            .46         .20 

5676 

a  Aquarii 

2.9 

o  38.891 

66.9 

+  3.0826—  .0041 

+  .006 

+  .0009       o 

.02            .12          .06 

5677 

£l  Cephei 

6-5 

o  52.699 

65-6 

+  1-7344  +.0034 

+  .005 

+  .0316+   4 

.08            .93          .42 

5678 

Br  2906 

5-5 

053-I35 

67.4 

+  1.7944+.  0051 

+  .007 

+  .0044       o 

.12            .57          .27 

5679 

I2  Cephei 

4-7 

053-751 

65.0 

+  1.7358+.  0035 

+  .005 

+  .0328+   4 

.O?            .48         .23 

5680 

i  Aquarii 

4.4 

i    2.239 

72.8 

+3-2445-  -0112 

+  .006 

+  .0025      o 

.04            .21          .09 

5681 

Br  2895 

5-7 

i    2.804 

67.6 

+  2.7I5I  +  .0072 

+  .009 

+  .0024       o 

.12           .57         .27 

5682 

Br  2935 

7-3 

i  49.154 

67.1 

-1.9283-.  4388 

-1.310 

—  .0691  —  38 

.IO            .42         .21 

5683 

Groomb  3709 

7-7 

i  55-843 

71.0 

—  1.9260—  .4390 

-1.311 

-.0703-40 

.10        .54      .23 

5684 

a  Gruis 

i-7 

i  55-969 

68.6 

+  3.8011-.  0455 

+  .019 

+  .0116      o 

•06            .33         .15 

5685 

Br  2911 

5-5 

i  58.095 

83.2 

+  1.8203  +  .0058 

+  .008 

+  .0016—    I 

.06            .36         .11 

5686 

Pi  405 

S-4 

1^58.948 

73-i 

+  2.4248  +  .01  14 

+   .Oil 

—  .0001       o 

.12            .51         .22 

"5687 

or  2910 

5-3 

2     3.982 

70.1 

+  1.8476  +  .0067 

+  .009 

+  .ooTo      o 

.11            .44         .21 

5688 

i  Pegasi 

3-9 

2  21.310 

72-5 

+  2.  7  903  +  .0063 

+  .008 

+  .O22O+     I 

.04            .22          .09 

5689 

p.  Piscis  Aust 

4.6 

2  33.041 

85.2 

+  3.5114—  .0260 

+   .OIO 

+  .0057       o 

.IO            .70         .20 

5690 

u  Piscis  Aust 

5-2 

2  34-918 

80.5 

+3-5243-  -0271 

+    .OIO 

+  .OOI2         O 

.16         1.05         .35 

5691 

Pi  406 

6.0 

2  42.795 

97-4 

+  2.  8556+.  OO4I 

+  .008 

+  .0084       o 

.15            .75         .18 

5692 

Br  2903 

5-9 

3    8.413 

75-7 

+  2.  8152  +  .OO49 

+  .008 

—  .0039       o 

.11            .44         .19 

5693 

Br  2898 

5-9 

3  29-979 

65-9 

+  3.2962—  .OI4O 

+  .007 

—  .0002       o 

.11            .34         .18 

5694 

Pi  4 

6.6 

3  47-389 

82.8 

+  2.OI7O+.OIOI 

+  .012 

—  .0024       o 

.11            .46         .17 

5695 

L  9036 

5-6 

4    5-344 

90.7 

+  3.5145-  .0270 

+   .OIO 

—  .0029       o 

.15          1.04         .25 

5696 

Br  2905 

7-3 

4    9.668 

65.0 

+  3-  1747-.  0080 

+  .006 

+  .0036      o 

.10        .36      .19 

5697 

Br  2904 

6.9 

4  I3-259 

72.7 

+  3-  1690-  .0073 

+  .006 

+  .0055+  I 

.08           .40        .17 

5698 

r  Piscis  Aust 

5-i 

4  I7-336 

84-7 

+  3-5283-.  0259 

+    .OIO 

+  •0355-     2 

.13           .92         .26 

5699 

L  9040 

6.8 

4  18.156 

81.2 

+  3.4298-  .0215 

+  .009 

+  .0023       o 

.16           .90        .31 

5700 

Groomb  3692 

7-i 

22    443-797 

84.6 

+  2-3737  +  -OI22 

+  .012 

+  .0030       o 

.10        .52      .17 

5660  South. 


5675  OS  461.    IIM  n"  298°;  others  near. 


CATALOGUE   OF   6188   STARS   FOR    IQOO 


229 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

li'andiooAp' 

Prob.  Errors. 
8  Ep.  100  |i'  S  10 

Remarks. 

5651 

0             /                 It 

+  29  2043.57 

79-9 

n                It 

+  16.726+.  192 

tt 

—  .10 

// 

-.378-    2 

*/       //      // 

•07      -45    -15 

5652 

—  28  56    i.oi 

76-7 

+  I7.I45  +  .  254 

—  .21 

+  .OO2        O 

.08      .47    .18 

18276.  6?2~6?6l'!&ii$° 

5653 

+  6  14  16.41 

57-i 

+  17.  140+.  219 

-.14 

—  .004      o 

.n      .40    .24 

18  Pegasi 

5654 

-57  ii  48.58 

83-3 

+  i4.579+.387 

-•35 

-2.591+46 

.07      .61    .18 

Parallax  o'/27 

5655 

+  o    7  28.57 

7i-3 

+  17.  176+.  223 

-•IS 

—  .006      o 

.10      .32    .16 

28  Aquarii 

5656 

+  57  1045-91 

72.9 

+  17.  170+.  144 

-.06 

—  .015      o 

.10      .32    .16 

5657 

+   7  46  35-02 

52.6 

+  I7.i87  +  .2i6 

-.14 

—  -005      o 

•U      -55    -35 

19  Pegasi 

5658 

+  12  38  26.63 

80.7 

+  I7-I37  +  -2i2 

-•'3 

-  .056      o 

.05      .28    .09 

20  Pegasi 

5659 

-1823    0.79 

81.1 

+  17.  152  +  .  240 

-.19 

-.063  +1 

.09      .61    .20 

5660 

-17  2647.55 

71.4 

+  17.  233  +  .  238 

-.18 

+  .006      o 

.08      .29    .13 

29  Aquarii  * 

5661 

+  7242  13.93 

69.9 

+  17.  105  +  .056 

-.06 

—  .160—  I 

.05        .21      .IO 

1  6  Cephei 

5662 

-   7    o  20.65 

68.0 

+  17.  282  +  .  226 

-.16 

+  .009      o 

.07         .32      .15 

30  Aquarii 

5663 

-   2  38  17.56 

67.2 

+  17.  268+.  222 

-.16 

—  .Oil         0 

.07         .24      .12 

5664 

+  52  23  59.68 

57-8 

+  17.284+.  155 

-.06 

+  .003      o 

.11         .45      .26 

5665 

+  10  54  12.17 

53-5 

+  I7-282  +  .2IO 

-.14 

—  .009      o 

.14         .50      .32 

21  Pegasi 

5666 

-3024    3.59 

76.7 

+  17.  284+.  248 

—  .21 

—  .017      o 

.12         .60      .23 

13  Piscis  Aust 

5667 

+  573I    3-6? 

71.2 

+  17.301  +  .140 

-•°5 

—  .004      o 

.09         .26      .13 

14  Cephei 

5668 

—  60    7  10.97 

83-4 

+  17.  2&O+.  306 

-.38 

-  .050      o 

.14         .71      .24 

65  G  Indi  K2 

5669 

+44  10    2.57 

65-2 

+  17.276+.  170 

-.08 

-  .037      o 

.12         .49      .25 

/3694.  5^8-8l?5o'.'63540 

5670 

—  27  18  23.92 

80.2 

+  17.  296+.  244 

—  .20 

—  .018      o 

•13         -57      -21 

25  G  Piscis  Aust 

5671 

-    i  23  24.17 

74-8 

+  I7.304+.2i8 

-•15 

—  .042      o 

.10      .37    .16 

32  Aquarii 

5672 

-40    i  33.42 

82.0 

+  17.245  +  .  257 

-•25 

—  .120      o 

.10      .49    .17 

5673 

+  26  ii  13.44 

89-9 

+  17.417  +  .  192 

—  .11 

+  .030     o 

.12         .69      .l8 

5674 

+  4  34  10.28 

64-5 

+  17.481  +  .  213 

-.14 

+  .092      o 

.10      .39    .20 

5675 

+  59  1947-15 

64.6 

+  17.399+.  134 

-•05 

+  .OIO        O 

.10      .36    .19 

15  Cephei  * 

5676 

—   o  48  20.80 

64.6 

+  17.383  +  .  216 

-•15 

—  .006      o 

.02         .11      .06 

5677 

+  64    8  27.49 

63.2 

+  17.489+.  120 

-.04 

+  .090+    2 

.09         .8l      .39 

Seel2 

5678 

+  62  37  58.91 

62.8 

+  I7-443  +  .  123 

-.04 

+  .043      o 

.IO         .50      .25 

18  Cephei 

5679 

+  64    8  25.72 

Si-7 

+  17.486+.  121 

-.04 

+  .086+    2 

.07         .27      .17 

See  |  ',  7"  282° 

5680 

—  14  21   17.82 

69.2 

+  17.346+.  228 

-.18 

—  .060      o 

.04         .21      .10 

5681 

+  28  28  40.57 

68.6 

+  I7.390+.  189 

—  .10 

—  .017      o 

.10      .49    .23 

23  Pegasi 

5682 
5683 

+  82  23  18.55 
+  82  23  22.26 

67.6 
74.8 

+  17.407-.  151 
+  I7.4I9-.  151 

-•57 
-•57 

-•033-  5 
-.026-  5 

.08         .32      .l6 
.09         .59      .23 

)  22873.    14"  73° 

5684 

-47  2643.14 

69.6 

+  17.  283  +  .  266 

-.28 

—  .162+  I 

.06         .30      .13 

5685 

+  62  17  51.67 

81.9 

+  17.  5IO+.  123 

-•05 

+  .064      o 

.06         .27      .IO 

20  Cephei 

5686 

+  44  3  i  39-84 

63.8 

+  17.430+.  167 

-.08 

—  .017      o 

.12        .44     .24 

5687 

+  61  47  35.82 

61.2 

+  I7.450+.  125 

-•05 

—  .001      o 

.09        .31      .18 

19  Cephei  * 

5688 

+  2451  23.37 

72.7 

+  17.481  +  .  194 

—  .11 

+  .OI8+    2 

.04        .22      .09 

5689 

-33  2835-49 

83-5 

+  I7.432  +  .  244 

—  .22 

—  .040      o 

.IO        .60     .19 

5690 

-3431  53-02 

74.0 

+  I7.420+.  244 

-•23 

-  -053      ° 

.l6      1.  12      .43 

5691 

+  18  59  10.42 

93-i 

+  I7.52I  +  .  197 

—  .12 

+  .043+  I 

.14         .60      .17 

5692 

+  21   12  57.19 

73-i 

+  I7.422  +  .  193 

—  .12 

-.075      o 

.10      .37    .17 

25  Pegasi 

5693 

-19  033.05 

59-5 

+  17.  496+.  226 

-.19 

—  .016      o 

.IO        .30     .18 

35  Aquarii 

5694 

+  58  21      9-12 

74.1 

+  I7.50I  +  .  135 

-•°5 

-  .023      o 

.10      .35    .16 

5695 

-3430  23.14 

85-9 

+  I7.558+.  240 

-•23 

+  .02  1      o 

.16      1.28     .35 

29  G  Piscis  Aust 

5696 

—   8  40  39.08 

66.6 

+  i7-583  +  -2I7 

-•I? 

+  -043      o 

.09        .35      .18 

36  Aquarii 

5697 

-   8    i  35.90 

73-8 

+  17.092  +  .  216 

-•17 

-.451      o 

.07        .44     .18 

5698 

—  33      2   22.68 

77-6 

+  I7-552  +  .  244 

—  .22 

+  .006+  3 

.12        .65      .24 

Br  2901.   15  Piscis  Aust 

5699 

-2847      2.30 

75-2 

+  I7-563  +  .235 

—  .21 

+  .017      o 

.17      1.05      .40 

31  G  Piscis  Aust 

5700 

+  47  26  38.21 

80.6 

+  i7-545  +  .i6o 

-.08 

—  .019     o 

•09      -39    -iS 

5687  ft  697.     12"  20"  93°. 


230 


PRELIMINARY  GENERAL   CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

H  and  100  A  p 

Prob.  Errors. 
aEp.      loop,     aio 

M 

h    m         s 

8                        S 

s 

s 

//              //           // 

5701 

Br  2915 

5-8 

22     447.716 

73-o 

+  2.6547  +  .0088 

+    .010 

—  .0045       o 

•°5          -32        -13 

5702 

Br  2912 

6.4 

S     9-I04 

70.2 

+  3-I232--oo57 

+  .006 

+  .0016       o 

-II          .54       .24 

5703 

0  Pegasi 

3-7 

5    9-337 

77-2 

+  3.0266—  .001  1 

+  .006 

+  .0184       o 

.04          .20       .08 

5704 

Br  2908 

7.2 

S  ii-77° 

75-3 

+  3.  2039-  .0094 

+  .006 

+  .0031       o 

.10        .40      .18 

5705 

Pi  12 

7.6 

5  I4-091 

64.6 

+     2.OI39+.  OIO2 

+  .012 

+  .OOIO         O 

.14        .68      .34 

5706 

Br  2909 

S-6 

5  16.758 

73-o 

+    3-2II2—  .0098 

+  .006 

+  .0018       o 

.08        .34      .15 

5707 

Br  2913 

6.4 

5  20.918 

72.4 

+    3.  1299-  .0059 

+  .006 

+  .0042       o 

.11        .42      .19 

57o8 

Pi  419 

6.4 

5  29-495 

84-4 

+  3-3353-  -0159 

+  .007 

+  .0078       o 

.10        .57       .18 

5709 

TT  Pegasi 

4-3 

5  32-7io 

78.6 

+  2.66o6+.oo89 

+  .010 

—  .0010          0 

.04        .26      .09 

57io 

Br  2916 

6-5 

5  46-519 

70.4 

+  2.8316+.  0048 

+  .008 

—  .0021       o 

.14        .52       .25 

57" 

Pi  15 

6-3 

7    1-525 

75-8 

+  2.  8954  +.0030 

+  .007 

—  .0010      o 

.11             .54         .21 

5712 

Br  2919 

6.4 

7    2-251 

69.6 

+  3-2393-  -0112 

+  .007 

+  .OOI2          0 

.11             .39         .20 

5713 

Groomb  3703 

5-5 

7  16.666 

7o-4 

+  2.3261  +  .0131 

+  .013 

+  .0148+  I 

.09            .48         .21 

57H 

£  Cephei 

3-6 

7  23.029 

74-9 

+  2.0758  +  .  0115 

+  .013 

+  .0013       o 

.03            .16         .07 

5715 

Br  2920 

6.8 

7  3MH 

76.0 

+  3.1256—  .0060 

+  .006 

—  .0042       o 

.IO            .44         .l8 

57i6 

Br  2932 

5-o 

7  53-l8i 

82.2 

+  1.1628—  .0223 

-  -030 

+  .OO6I+     2 

.05        .30      .10 

5717 

Br  2921 

7-4 

8    5-599 

67-5 

+  3.2121—  .0099 

+  .006 

+  .0017       o 

.15            .51          .26 

57i8 

<]i  Octantis 

5-8 

8    6.987 

88.5 

+  6.0098—  .3665 

+  .622 

--OI35+  5 

.l8            .90         .26 

5719 

A  Cephei 

5-3 

8    7-030 

65-4 

+  2.0353  +  .OHI 

+    .012 

+  .0029       o 

.13            .42          .23 

5720 

Pi  19 

5-7 

8    7-397 

79-5 

+  3.3788-  .0189 

+    .008 

+  .0051       o 

.IO            .60         .21 

5721 

Br  2926 

5-5 

8  12.144 

71.6 

+  2.i6o3  +  .oi27 

+    -014 

+  .0287+     2 

.10        .44      .19 

5722 

Br  2934 

6.6 

8  17.694 

76.8 

+  1.1869—  .0206 

-    -025 

rrTooi8      o 

.OQ            .50         .19 

5723 

Groomb  3719 

5-9 

8  21.919 

72.2 

+  1.3762—  -.0103 

—  .on 

—  .0106—   3 

.IO            .50         .21 

5724 

Pi  29 

5-6 

8  22.279 

72.0 

+    2.  6502  +  .0097 

+  .010 

+  .0016       o 

.15            .80         .34 

5725 

L  9061 

6.7 

8  32.087 

87-5 

+    3.6809-  .0359 

+  -015 

+  .0489+  I 

.12        .68      .19 

5726 

X  Piscis  Aust 

5-5 

8  38-767 

82.2 

+    3.4097—  .O2IO 

+  .009 

+  .0018       o 

.10        .50      .17 

5727 

Radcl  5609 

5-7 

8  43-437 

80.0 

+  i.9792  +  .oio2 

+  .013 

—  .0013       o 

.13            .57          .21 

5728 

Br  2923 

5-7 

8  46.677 

79.2 

+  3.  3198-  .0158 

+  .007 

+  .OOIO          0 

.12            .48         .19 

5729 

e  Octantis 

5-3 

8  49-305 

87.9 

+  6.9931-.  5926 

+1-359 

+  .0137-   3 

.12            .70         .20 

5730 

Pi  32 

6.2 

9    3-624 

70.4 

+  2.7435  +  .0078 

+  .009 

+  .0034      o 

.11             .75          .32 

5731 

Pi  33 

6.8 

9  30.067 

85.0 

+    2.  8796+.  0036 

+  .008 

—  .0069       o 

.11             .63          .19 

5732 

Pi  36 

4.8 

935-137 

71.6 

+  2.57I2  +  .OH3 

+   .Oil 

+  .0042       o 

.07             .36         .16 

5733 

L  9069 

4-9 

9  35-584 

82.8 

+  3.  6311-.  0361 

+  -015 

+  .0043       o 

.11             .54         .18 

5734 

Groomb  3717 

5-8 

9  42.404 

68.4 

+  2.4631  +  .0127 

+  .012 

+  .0082+  I 

.16            .69         .33 

5735 

Pi  35 

8.1 

9  58-695 

76-7 

+  3-1393—  -0064 

+  .006 

+  .OOI2         O 

.11             .50         .20 

5736 

Loo75 

5-3 

10  25.622 

83-1 

+  3.6281-.  0363 

+  .015 

—  .0003      o 

.15        .66      .23 

5737 

Groomb  3725 

5-9 

10  32.262 

82.8 

+  2.5I5I  +  .OI23 

+  .on 

+  .0049      o 

.11        .57      .19 

5738 

Br  2938 

6.4 

10  40.815 

78.4 

+  i.  8812  +  .0086 

+  .on 

—  .0041—    I 

.11        .48      .19 

5739 

L  9071 

7.6 

10  42.877 

88.0 

+  3-9455-  -0628 

+  .034 

+  .0030       o 

.18        .94      .28 

5740 

Pi  37 

6.4 

II    0.480 

80.6 

+  3.3788-  .0193 

+  .008 

+  .0028       o 

.13            .60         .22 

5741 

Br  2942 

6-3 

II    4.201 

70-3 

+  1.  1006—  .0270 

-  -039 

+  .0052+   I 

.10        .39      .19 

5742 

€  Cephei 

4.2 

II  21.140 

63-3 

+    2.  2034+.  0144 

+  -014 

+  .0544+   7 

.06            .26         .13 

5743 

Br  2928 

5-7 

II  26.845 

71.0 

+    3.  2185-.  0104 

+  -007 

+  .0017      o 

.09            .36         .17 

5744 

6  Aquarii 

4-4 

"  33-442 

73-i 

+    3.  1684-  .0075 

+  -007 

+  .0074       o 

.03             .15         .06 

5745 

Br  2930 

6-3 

II  35-845 

74-7 

+    3.1711—  .0082 

+  -007 

-.0035       o 

.IO            .44         .l8 

5746 

Br  2933 

4-3 

II  36.614 

63.6 

+  2.6iii  +  .oio9 

+    .Oil 

+  .0017       o 

.11             .48         .25 

5747 

a  Tucanas 

2,9 

II  39.165 

67.4 

+  4.1482—  .0845 

+  .056 

—  .OIII+    2 

.09            .36         .17 

5748 

L  9076 

5-6 

II  42.372 

89.0 

+  3.9588-  .0605 

+  .032 

+.0459+  I 

.15        .88      .24 

5749 

Br  2931 

6.2 

II  53.284 

75-o 

+  3-I347-  -0063 

+  .007 

—  .0003      o 

.10        .45      .19 

5750 

v  Octantis 

6.0 

22  12  34.98- 

72.2 

+  12.836  —  3.200- 

-.040-+  5 

•05        .32      .13 

5705  S  2872.    Sfa  23"  316°;  BC:  9fo-9fo  o'.'j  320°. 


5728  W.H.    7?75"ii6°. 


CATALOGUE  OF  6 1 88  STARS  FOR  1900 


23I 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H'  and  ioo  AH' 

Prob.  Errors. 
SEp.  loop.'  Sio 

Remarks. 

S70I 

or          tf 
+  32  41      0.98 

75-o 

/'                        // 

+  17.495  +  .  179 

—      .10 

n 

—  .072       o 

//               n          n 

.06         .32      .12 

27  Pegasi  *•' 

5702 

-    4  23    3.74 

73-6 

+  17.  526  +  .  211 

-    .16 

—  .056       o 

.IO         .50      .21 

5703 

+  5  42  20.73 

76-5 

+  17.616+.  206 

-    -14 

+  .034+      I 

.04         .20      .08 

5704 

-ii  18  45.94 

73-° 

+  i7-6i3  +  .2i7 

-    -17 

+  .029       o 

•°9      -33    -15 

37  Aquarii  (e1) 

5705 

+  58  47  56.49 

58-4 

+  17.592  +  .  134 

-    -°5 

+  .006       o 

.11      .48    .27 

* 

5706 

-12    3  25.02 

75-4 

+  17.  592  +  .  217 

•    -i? 

+  .005       o 

.08     .34  .14 

38  Aquarii  (e  or  e  2) 

5707 

-   445  31.10 

73-6 

+  I7.592  +  .  212 

-    .16 

+  .OO2          O 

.10      .43    .19 

5708 

-2i  43  25.06 

83-7 

+  I7.57I  +  .  226 

-    .19 

—  .025       o 

.10      .56    .18 

119  G  Aquarii 

5709 

+  32  41  14.42 

77.0 

+  I7-575  +  .  178 

—      .10 

-  -023       o 

.05     .25   .09 

57io 

+  20  29  10.86 

67.4 

+  I7-595  +  .  190 

—      .12 

-.013       o 

.12         .43,..  22 

28  Pegasi 

57ii 

+  1532  51.51 

74-7 

+  17.643  +  .  192 

-      -13 

—  .017       o 

.09         .46      .19 

5712 

-1441  11.27 

69.2 

+  17.615  +  .  216 

-      .18 

—  .046      o 

.10      .37    .18 

39  Aquarii 

5713 

+  50  19  44.89 

7°-5 

+  17.703  +  .  154 

-      -°7 

+  .032+  I 

.09      .44    .20 

hi74i.  nM25"309°,  rel.mot. 

57H 

+  57  42  29.53 

70.6 

+  I7.632  +  .  135 

-      .06 

+  .007      o 

.03      .14    .06 

5715 

-   5  12  49.76 

75-o 

+  17.654+.  207 

-      .16 

—  .027       o 

.09    .41  .17 

S7i6 

+  71  5054.61 

77-2 

+  I7-700+.072 

-      -°5 

+  .004       o 

.05      .24    .09 

24  Cephei 

5717 

-12  25  13.81 

68.4 

+  17.681  +  .  212 

-      -I? 

-  .023       o 

.13         .44      .22 

40  Aquarii 

57i8 

-78    033.50 

86.4 

+  17.706+402 

-    -99 

+  .001—     I 

.14         .73      .22 

5719 

+  5855  16.27 

55-7 

+  17.699+.  132 

-    -°5 

—  .006       o 

.12         .36      .23 

5720 

-25  4034-72 

83.8 

+  17.  716+.  224 

—      .20 

+  .OII         0 

.11         .52      .l8 

34  G  Piscis  Aust 

5721 

+  56  20  30.99 

69.4 

+  17.836+.  142 

-      .06 

+  .127+     2 

.09         .38      .18 

5722 

+7137  7-25 

74-9 

+  I7-682  +  .073 

-      -°5 

-  .030       o 

.08         .34      .14 

5723 

+6938  17.90 

63.8 

+  i7.733  +  .o86 

-      .04 

+  .018-  I 

.09         .36      .19 

S  2883.  8^2  15"  254° 

5724 

+  34    641.30 

60.4 

+  17.673  +  .  173 

—      .IO 

-  .043       o 

•13      -75    -39 

5725 

-41  51  19.40 

83.8 

+  16.940+.  247 

~      -25 

-.782+  3 

.10      .50    .16 

32  G  Gruis 

5726 

-28  1545-53 

84-4 

+  17.  724+.  225 

—      .21 

-.003       o 

.10      .50    .16 

5727 

+  60  15  52.19 

83.6 

+  17.756+.  127 

-      -°5 

+  .026      o 

.12         .51      .l8 

5728 

-2i  34  18.43 

77-4 

+  i7.798  +  .2i8 

~      -19 

+  .066      o 

.12         .45      .19 

41  Aquarii  * 

5729 

—  80  56  14.69 

85-9 

+  17.  699  +  .468 

—  1.44 

-•035+  I 

.10      .57    .17 

5730 

+  28    645-98 

67.2 

+  17.  742  +  .  178 

—      .11 

—  .002      o 

.14         .6l      .30 

5731 

+  16  41  44.75 

76.! 

+  17.674+.  186 

-      -13 

-.088       o 

•°9      -37    -IS 

S  2877.  ioMi2"o°,reI.  mot. 

5732 

+  39  13    7-2i 

67.2 

+  i7-77o+.i66 

—      .IO 

+  .005       o 

.06      .28    .14 

hi746.  nM28"i8i° 

5733 

-41  5039.37 

80.  i 

+  17.796+.  238 

-      .25 

+  .031       o 

.10      .45    .17 

35  G  Gruis  ft1 

5734 

+  44  56  40.07 

66.6 

+  17.763  +  .  159 

-      .08 

-.007+  I 

.14    .52   .27 

5735 

-   6    4  54.09 

73-4 

+  17.801  +  .204 

-      .16 

+  .020      o 

.10      .39    .17 

5736 

—  42    7  29.22 

82.2 

+  17.  799  +  .  236 

'      -25 

.000      o 

.12         .6l      .21 

36  G  Gruis  /i2 

5737 

+  42  27  27.70 

80.2 

+  17.781  +  .  161 

-      .09 

—  .022       o 

.IO         .46      .17 

5738 

+  62  39  58.10 

76.5 

+  17.811  +  .  118 

-      -°5 

+  .OO2         O 

.10         .53      .20 

5739 

-5449    9-17 

83-5 

+  i7.763  +  .257 

-      -32 

—  .048      o 

.15         .69      .24 

5740 

-26  23  46.24 

78.4 

+  17.80^.218 

—      .20 

—  .021       o 

.12         .59      .22 

36  G  Piscis  Aust 

5741 

+  724837.87 

74-8 

+  17.  845  +  .066 

-      -05 

+  .O2O         O 

.10      .37    .16 

S2893.   8M29"348° 

5742 

+  5632  41.22 

64.7 

+  17.880+.  143 

-      .06 

+  .044+   4 

.05      .20    .10 

5743 

-  13  19  48.87 

68.8 

+  17.844+.  207 

-      .18 

+  .004       o 

.08         .31      .15 

42  Aquarii 

5744 

-   8  16  52.77 

71.0 

+  I7-825  +  .203 

-      -17 

—  .019      o 

.03         .16      .07 

5745 

-   9  32  18.43 

75-5 

+  17.837  +  .  203 

-      -17 

—  .009      o 

.10      .41    .17 

5746 

+  37  i5    i-78 

62.0 

+  17.842  +  .  166 

—      .10 

—  .004      o 

.IO         .42      .22 

i  Lacertas 

5747 

-60  45  28.68 

7o-5 

+  I7.8I7  +  .267 

-    -37 

-.031-  I 

.08         .34      .16 

5748 

-54    6  3!-63 

87.4 

+  17.  169+.  258 

-    -32 

-.681+  3 

.12         .75      .21 

37  G  Gruis 

5749 

-   5  53  12.08 

7i-3 

+  17.878  +  .  200 

-    .16 

+  .020      o 

.09         .37      .17 

44  Aquarii 

5750 

-862833.98 

75-i 

+  i7.952  +  .835 

+  .067-   3 

.04         .29      .11 

232 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    1 900 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

tiand  100  A  p. 

Prob.  Errors. 
aEp.     ioo(j>     aio 

M 

h    m        a 

s                 s 

a 

s 

//                   tr              it 

5751 

Pi  61 

6.1 

22  12  49.847 

70.8 

+  2.i6oo+.oi35 

+  .015 

+  .0055+  I 

.12            .56         .25 

5752' 

Br  2936 

6.4 

13  38.775 

68.2 

+  3.2242—  .0106 

+  .007 

+  .0049       o 

.09            .33          .16 

5753 

Groomb  3739 

7-3 

H  I5-763 

73-2 

+  1.7619+.  0058 

+  .009 

+  .0029       o 

.10        .58      .24 

5754 

Pi  65 

6.4 

14  33-133 

66.2 

+  2.6266+.OH3 

+  .OII 

+  .0058      o 

.16            .63          .32 

5755 

p  Aquarii 

5-5 

I4  56.245 

68.4 

+  3-I595--oo75 

+  .007 

+  .0006       o 

.08            .28         .14 

5756 

Br  2947 

6.2 

1456.919 

74-7 

+  i.9523  +  .oio9 

+  .014 

+  .0065  +   I 

.09            .38         .l6 

5757 

Br  2941 

S-6 

15  25-677 

75-3 

+  3.0190—  .0009 

+  .007 

+  .0012          O 

•io        -33      -15 

5758 

v  Indi 

5-6 

l6      2.O2I 

88.8 

+  5-2441-  -2075 

+  •235 

+  .2865-52 

.13            .8l          .22 

5759 

Br  2940 

5-4 

16    5-353 

77-8 

+  3.  3086-  .0159 

+  .008 

—  .0014       o 

.08            .38         .15 

5760 

Pi  68 

7.8 

16    9.829 

80.8 

+  3.1441—  .0066 

+  .007 

+  .0026      o 

.16        .88      .31 

576i 

•y  Aquarii 

3-9 

16  29.490 

74-8 

+  3.0998—  .0041 

+  .007 

+  .0082       o 

.03        .15      .06 

5762 

Br  2944 

5-i 

16  35.724 

81.5 

+  2.95I9+.OOI9 

+  .008 

+  .0003       o 

.06            .34         .12 

5763 

Br  2946 

4-9 

16  42.214 

69-3 

+  2.  7654+.  0083 

+  .009 

+  .0004       o 

.11      .52     .24 

5764 

Br  2948 

4.6 

16  53.608 

69.1 

+  2.4717  +  .0140 

+  .014 

+  .0019       o 

.10        .28      .16 

5765 

L  9108 

6.0 

16  59.526 

9i-3 

+  3-705I-  -°433 

+  .021 

+  .O223—     2 

.15      .94     .23 

5766 

L  9099 

6.1 

17  21.454 

83-6 

+  4.7690—  .1676 

+  .I80 

+  .02  20—    4 

.18       .78     .27 

5767 

Groomb  3751 

7-8 

17  44-894 

66.6 

+  2.5297  +  .OI34 

+  .013 

—  .0003       o 

.14      .82     .39 

5768 

Br  2945 

5-8 

17  56.549 

73-6 

+3-3508-  -0183 

+  .009 

+  .0067       o 

.13            .50         .22 

5769 

Pi  81 

6-3 

18  17.477 

69.4 

+  3.  1497-.  0070 

+  .007 

—  .0002       o 

.12            .54         .25 

5770 

L  9112 

5-i 

18  17.919 

85.6 

+  4.0182—  .0734 

+  .047 

+  .0170+  I 

-14       -75      -23 

5771 

Groomb  3760 

7-3 

18  46.627 

70-7 

+  1.7838  +  .  0072 

+  .OII 

+  .0068+  I 

.IO            .48         .21 

5772 

Br  2951 

6.4 

1  8  50.804 

71.6 

+  2.  8846  +  .005  7 

+  .009 

+  .0239+  I 

•08            .33          .15 

5773 

Br  2950  m 

6.0 

18  54.356 

70-3 

+  3.1274-  .0058 

+  .007 

+  .0017       o 

-08            .33         .15 

5774 

Br  2949 

6.1 

19    5.708 

80.4 

+  3.2179—  .0106 

+  .008 

+  .0032       o 

.06            .33          .11 

5775 

Pi  89 

7.0 

19  26.314 

69.2 

+  3.0962—  .0040 

+  .007 

+  .007  1       o 

•IS            -63         -30 

5776 

|8  Lacertae 

4.6 

I937.57I 

76.3 

+  2.3523  +  .OI56 

+  .015 

—  .0016+   I 

.04            .l6         .07 

5777 

IT  Aquarii 

4.6 

2O  IO.2II 

74-8 

+  3.  0645  -.002  7 

+  .007 

+  .0007       o 

.05        .26      .10 

5778 

8  Tucanae 

4.8 

20  13.433 

66.1 

+  4.3183-.  mi 

+  .094 

+  .OIO6—     2 

.tl        .50      .25 

5779 

Br  2958 

4.6 

2O  27.638 

80.2 

+  2.4253  +  .OI52 

+  .015 

—  .0008      o 

.08            .33         .12 

578o 

Pi  91 

6.4 

20  38.951 

81.2 

+  3-3246-  .0174 

+  .009 

+  .OOOI         0 

.11            .54         .19 

578i 

Br  2953 

6.7 

21      8.374 

71.2 

+  3.2638—  .0126 

+  .008 

+  .0180      o 

•09        -33      -!5 

5782 

Br  2954 

6.4 

21      8.807 

70.6 

+  3.2616—  .0126 

+  .008 

+  .0157      o 

.09        .32      .15 

5783 

L  9117 

5-8 

21   l6.O26 

84.1 

+  4.4802—  .1320 

+  .I25 

+  .0267—   4 

.15        .80      .26 

5784 

Br  2993 

5-4 

21   18.14- 

79-o 

-4.136—1.308- 

+  .051-  +36 

.05        .27      .10 

5785 

Br  2955 

7-3 

21  23.040 

63-3 

+  3.1913-  .0092 

+  .007 

+  .0031       o 

.12            .45         .24 

5786 

Br  2957 

6.1 

21  31.986 

66.1 

+  3.0541  -.001  2 

+  .007 

+  .0195      o 

.08           .33         .17 

~S78T 

Br  2997 

7.0 

21  41.24- 

74-o 

-4.316—1.383- 

+  .038-  +37 

.07            .38         .15 

5788 

Groomb  3771 

7.6 

21  52.800 

69.1 

+  2.329O+.oi6i 

+  .016 

+  .0013      o 

.16           .58         .29 

5789 

v  Gruis 

5-7 

22  47-645 

83-4 

+3.5320-  .0324 

+  .015 

+  .0040      o 

.IO           .50        .16 

5790 

Br  2959 

5-o 

22  47.797 

70.8 

+  3.°37i-<jO^|p--oo7 

+  .0051+  I 

.09           .36        .16 

5791 

S1  Gruis 

4.1 

23   I7-675 

79-2 

+  3.6034—  .0386     +.019 

+  .0024       o 

.11            .51         .19 

5792 

Pulka  3296 

5-8 

23  25.697 

83-2 

+  1.5549-  .0015 

—  .001 

+  .0060+   I 

.11            .69         .22 

5793 

£  1  Aquarii 

4-S 

23  40.876 

72.2 

+  3.0889—  .0032 

+  .007 

+  .0115       o 

.O?            .40         .17 

5794 

£  2  Aquarii 

4-3 

23  41-045 

68.2 

+  3.0912-.  0033 

+  .007 

+  .0138      o 

.05            .24         .11 

5795 

8  2  Gruis 

4-3 

23  47-098 

78.4 

+  3.6015-.  0389 

+  .019 

—  .0017       o 

.12        .66      .24 

5796 

Br  2969 

5-8 

23  52.242 

61.3 

+  i.9258  +  .oi2i 

+  .015 

+  .0009      o 

.11       .48      .26 

5797 

Br  2962 

5-9 

24     8.525 

64-3 

+  2.9938  +  .  ooio 

+  .008 

+  .0037       o 

.15      .60     .31 

5798 

Pi  120 

6.0 

24  29.043 

74-3 

+  2.  8073  +  .0083 

+  .009 

+  .0018       o 

.14      .80     .32 

5799 

Br  2961 

6.6 

24  40.742 

66.9 

+  3.2136—  .0101 

+  .008 

+  .0124      o 

.12            .58         .28 

5800 

Br  2965  m 

5-8 

22  24  54.623 

77-4 

+  3-0333-.  o°10 

+  .007 

—  .0021       o 

.09         .32       .14 

S7S7  h  962.     12""  6"  20°;  12*  n"  222°. 
5773  ft  172-     6«7-6!*9  o'/7  4°,  slow  binary. 


5772  S  2900.    9^2  i'/S  179°,  slow. 
5781-2  W.  H.     7"  309°. 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


233 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.'  and  100  A  p' 

Prob.  Errors. 
SEp.  loop.'  8  10 

Remarks. 

57SI 

0             /                 // 

+5643  15-54 

64.8 

//                    // 

+  17.892  +  .  135 

// 

-.06 

// 
-.003       o 

//         n       n 

•  13      -47    -25 

5752 

-  13  48  20.79 

69.0 

+  17.908  +  .  203 

-.18 

—  .019      o 

.08      .32    .15 

45  Aquarii 

5753 

+  65  37  42-59 

72.7 

+  17.974  +  .  107 

-.04 

+  .023       o 

.09      .44    .19 

5754 

+  37  16    1.23 

56-5 

+  18.023  +  .  163 

—  .10 

+  .061       o 

.12         .46      .27 

2  2894.  8*5  15"  193° 

5755 

-   8  19  24.37 

62.3 

+  17.972  +  .  196 

-•17 

-.005       o 

.07     .24  .13 

5756 

+  62  18  11.00 

63-4 

+  i8.ooi  +  .ii9 

-•°5 

+  .023       o 

.08      .29    .16 

25  Cephei 

5757 

+   5  17  12.83 

70.0 

+  18.001  +  .186 

-•15 

+  .005       o 

.08     .28   .14 

30  Pegasi  * 

5758 

-72  44  29.22 

86.3 

+  i7-325  +  -348 

-.61 

—  .694+21 

.11     .65   .19 

5759 

-22    558.02 

81.4 

+  17.934+.  204 

-.19 

—  .087       o 

.07         .33      .12 

47  Aquarii 

5760 

-   6  44  46.72 

77.0 

+  18.028+.  193 

-.16 

+  .004       o 

•13         -58      .23 

576i 

-    i  53  28.90 

73-3 

+  18.046  +  .  190 

-.16 

+  .009      o 

.03         .16      .07 

5762 

+  1142    4-3° 

77-6 

+  18.046+.  180 

-.14 

+  .005       o 

.06         .29      .11 

31  Pegasi 

5763 

+  27  4935-85 

69.0 

+  18.043  +  .168 

—  .11 

—  .002       o 

.07         .37      .17 

32  Pegasi 

5764 

+  46    i  58.48 

59-2 

+  18.052  +  .  149 

-.08 

.000          0 

.08         .26      .16 

2  Lacertae 

5765 

-46  25  54.45 

87.6 

+  I7-995  +  .228 

-.27 

—  .061  +    I 

.12         .65      .19 

39  G  Gruis  *  *  (w) 

5766 

-  70  56    9.06 

86.0 

+  i8.oi6  +  .295 

-•54 

-.054+  I 

.16         .75      .24 

71  G  Indi 

5767 

+  43  H  27.65 

63.8 

+  18.050+.  152 

-.09 

-  .034      o 

•14         -65      -33 

5768 

-25  16    5.07 

73-4 

+  18.091  +  .203 

—  .20 

—  .001       o 

.12         .46      .21 

49  Aquarii 

5769 

-    7  42    1-43 

73-2 

+  i8.no+.i89 

-•17 

+  .005       o 

.11         .46      .20 

5770 

-58  i?  39-41 

84.6 

+  17.763  +  .245 

-•33 

-•342+  I 

.11         .64      .20 

5  G  Tucanae 

5771 

+  66  12    3.97 

65-4 

+  18.133  +  .  104 

-.04 

+  .OIO         0 

.08         .34      .17 

22903.    8*2  4"  95° 

5772 

+  20  2033.94 

64.6 

+  18.107  +  .  173 

-•13 

—  .019+  I 

.07         .26      .14 

33  Pegasi  * 

5773 

-   5  20  34.94 

67.8 

+  18.128  +  .  187 

-.16 

.000       o 

.07         .3!      .15 

51  Aquarii  * 

5774 

—  14      2    IO.8l 

75-9 

+  18.151  +  .  192 

-.18 

+  .016       o 

.06         .31      .12 

50  Aquarii 

5775 

-     I   41  40.43 

71.2 

+  18.183  +  .  184 

-.16 

+  .035       o 

.14         .52      .25 

5776 

+  51  43  40.47 

73-o 

+  17.965  +  .  138 

-.08 

—  .190       o 

.04         .17      .08 

5777 

+  o  52  11.43 

70.2 

+  18.178  +  .  181 

-.16 

+  .003       o 

.05         .23      .11 

5778 

-  65  28  30.36 

69.0 

+  i8.i88+.258 

-.41 

+  .011+     I 

.10         .45   .    21 

hS334.   9*2  4"  283° 

5779 

+  48  58    9.20 

77.0 

+  18.175-^.141 

-.08 

—  .01  1       o 

.07         .26      .11 

4  Lacertae 

578o 

—  24  n  26.25 

82.7 

+  18.197  +  .  196 

—  .20 

+  .004      o 

.10      .47    .16 

144  G  Aquarii 

578i 

-17  i458-58 

73-4 

+  18.204+.  192 

-.18 

—  .006+   I 

.09         .40      .17 

153*  Aquarii/* 

5782 

-i?  15    3-°5 

70.6 

+  18.215  +  .  192 

-.18 

+  .004+  I 

.09         .35      .16 

J532  Aquarii/* 

5783 

-67  5948.38 

85-4 

+  18.137  +  .  267 

-.46 

-.078+     2 

.13         .84      .24 

72  G  Indi 

5784 

+  85  36  17.27 

81-3 

+  18.265-  .256 

+  .049+  3 

.05         .25      .09 

32  H  Cephei 

5785 

-ii  44  11.83 

66.6 

+  i8.2i8+.i86 

--I7 

—  .002       o 

.11         .41      .21 

54  Aquarii 

5786 

+  3  53    0-28 

63.0 

+  18.268+.  179 

-•IS 

+  .043+  I 

.08         .30      .l6 

34  Pegasi  * 

5787 

+  85  43    8.40 

77.1 

+  18.246—  .267 

+  .015+     2 

•09      -37    -15 

5788 

+  53  18  27.60 

63.2 

+  18.243  +  .  133 

-.07 

+  .005       o 

.16      .64    .34 

5789 

-3938  16.37 

84.6 

+  i8.ioi  +  .204 

-.24 

—  .170       o 

.10      .54    .17 

5790 

+  411  38.47 

67.1 

+  17.955  +  .  175 

-•IS 

-.316       o 

.08      .34    .17 

35  Pegasi 

579i 

-44    023.24 

77-4 

+  18.289+.  207 

-.26 

+  .OOI          O 

.09      .41    .16 

L9i38 

5792 

+  70  15  41.15 

87-5 

+  18.31  1  +  .085 

-.04 

+  .018       o 

.11      .64    .18 

5793 
5794 

-   o  31  53-33 
-  o  3i  55-99 

76.8 
71.8 

+  !8.3i8  +  .i76 
+  18.347  +  .  177 

-.16 

-.16 

+  .016+  I 

+  .045+  I 

.07      .36    .14 
.05      .25    .11 

|2  2909.  3"  319°,  slow 

5795 

-44  15  39-°° 

77-7 

+  18.309+.  206 

-.26 

+  .003       o 

.10         .55      .20 

L  9140  * 

5796 

+  64  37  20.50 

55-4 

+  18.318+.  107 

-•05 

+  .009       o 

.IO         .40      .24 

5797 

+  8  37    5-31 

57-4 

+  18.291  +  .  170 

-.14 

—  .028       o 

•13      -55    -32 

36  Pegasi 

5798 

+  26  15    6.26 

68.9 

+  18.314+.  158 

—  .12 

—  .018      o 

.13      .67    .30 

5799 

-13  25  38.10 

68.0 

+  18.331  +  .  182 

-.18 

—  .007  +  I 

.n      .64    .29 

5800 

+  3  55  25-09 

70.1 

+  18.208+.  170 

-•15 

-.138       o 

.08      .28    .14 

37  Pegasi  * 

5786/8290.     12"  3"  218°,  very  slow. 


5  795     9««  prec.  3^2,  851". 


5800  2  2914.     6*1-1*4  '"  ±>  binary. 


234 


PRELIMINARY   GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  10.  i  A  |i 

Prob.  Errors. 
aEp.     100  jj,    a  10 

M 

h    m         > 

5                     S 

s 

s 

/'                 tf               n 

5801 

Br  2963 

6-5 

22  24  55.849 

71.8 

+  3.2201—  .0111 

+  .008 

+  .0025       o 

.11              .39          .18 

5802 

Pi  118 

6.8 

25  20.282 

84-4 

+  3-343°-  •OI9I 

+    .010 

+  .0022          O 

.12            .69         .21 

5803 

a-  Aquarii 

4-9 

25  2I-352 

70.4 

+  3.  1784-  .0087 

+    .007 

.OOOO          0 

.04            .21          .09 

5804 

Br  2970 

4.6 

25  21.609 

66.6 

+  2.49i5  +  .oi57 

+    .015 

—  .0018      o 

.09            .44         .21 

5805 

Br  2972 

7-5 

25  26.388 

79-3 

+  2.22l6+.Ol69 

+    .019 

+  .0033      o 

.11             .45         .l8 

5806 

Br  2968 

5-6 

25  27-3I7 

77-9 

+  2.  7392  +  .0107 

+    .Oil 

+  .0025      o 

.09            .45         .17 

5807 

&  Cephei 

Var. 

25  27-389 

66.5 

+  2.2i96+.oi6p 

+  .019 

+  .0015       o 

.04            .l6         .08 

5808 

y3  Piscis  Aust 

4-4 

25  49-301 

80.  i 

+3.4218-.  0247 

+    .012 

+  .0046       o 

.09            .42          .15 

5809 

Br  2980 

6.0 

25  57-563 

65-3 

+0.5006—  .0903 

-    -197 

—  .0028+   I 

.O?            .30         .15 

5810 

Br  2971 

4-5 

26  10.198 

58.6 

+  2.58i8  +  .oi45 

+    .014 

—  .0012      o 

.14            .42          .26 

5811 

v  Tucanae 

5-2 

26  14.496 

83-3 

+  4.0961—  .0909 

+    .071 

+  .0027       o 

.11            .69         .22 

5812 

Br  2967 

6-7 

26  23.228 

71.0 

+  3.1837-.  0088 

+    .007 

+  .0041       o 

.09            .36         .17 

58i3 

a  Lacerte 

3-8 

27  10.218 

73-o 

+  2.  4643  +  .01  70 

+    .Ol6 

+  .0145+  I 

.04            .24         .IO 

S8i4 

Br  2974 

6-5 

27  45.472 

64.1 

+  2.8954+.  0059 

+    .009 

+  .0106       o 

.11            .44         .23 

S8i5 

Groomb  3804 

6.0 

28    1.108 

70.0 

+  2.6470+  .0136 

+    .013 

+  .0015      o 

.IO            .63          .27 

5816 

Pi  142 

7-i 

28  50.579 

64.2 

+  3.1639—  .0080 

+    .007 

—  .0009       o 

•14        -57      -3° 

58i7 

Br  2977 

6.2- 

28  53-653 

63.0 

+  3.0930-  .0038 

+    .007 

+  .0018      o 

.13        .48      .26 

5818 

p  Cephei 

5-6 

28  59.917 

70-5 

+  0-5757-  -0848 

-    .188 

+  .0015+  I 

.08        .30      .14 

58i9 

v  Aquarii 

5-5 

29  13-483 

73-2 

+  3.2880—  .0150 

+    .009 

+  .0155       o 

.07            .26         .12 

5820 

Pi  US 

7-4 

29  28.965 

73-4 

+  3.0689—  .0027 

+    .007 

—  .0027       o 

•M        -57      -25 

5821 

Pi  156 

5-9 

29  47-827 

82.8 

+  2.3i83  +  .oi84 

+    .OIQ 

+  .0089+   I 

.11        .46      .17 

5822 

Pi  146 

6-3 

30    6.427 

82.1 

+  3-3°63--oi73 

+    .010 

+  .OOII         0 

.12            .68         .22 

5823 

Groomb  3826  m 

6.2 

30    8.950 

73-6 

+  1-7373  +  -007  2 

+  .on 

+  .0232+   4 

.09            .40         .17 

5824 

1]  Aquarii 

4-i 

30  13.090 

73-2 

+  3.0840—  .0030 

+  .008 

+  .0060      o 

.03            .16         .07 

5825 

Br  2978 

7.0 

30  25.810 

66.2 

+  3.  2349-  .0127 

+  .009 

—  .0027       o 

.15            .48         .26 

5826 

Groomb  3827 

6-5 

30  27.312 

80.6 

+  1.6960  +.0056 

+  .009 

+  .0113+     2 

.IO            .44         .l6 

5827 

Groomb  3834 

5-9 

3°  3I-°57 

71.8 

+  1.0709-  .0347 

—  .062 

-.0043-     2 

.04            .27          .11 

5828 

L  9181 

6-5 

3°  38-965 

91.6 

+  3.5182-.  0339 

+  .018 

+  .0028       o 

.12           .72         .18 

5829 

L  9184 

6.1 

30  57.802 

81.5 

+  3.3876-  .0238 

+  .012 

-  -0033       o 

.12            .70        .23 

5830 

Pi  158 

6.9 

31      O.202 

84.0 

+  2.  8906  +.OO62 

+  .010 

.0000      o 

.12            .60        .20 

5831 

L9i83 

6.0 

31      8.795 

89.0 

+  3-5I73-  -0339 

+  .019 

+  .0041       o 

.16           .84        .24 

5832 

Br  2981 

6-7 

31    25.124 

80.  i 

+  2.6622  +  .OI40 

+  .013 

—  .0006       o 

.14        .86      .29 

5833 

Br  2982 

5-9 

31  25-239 

64.8 

+  2.66i8+.oi4o 

+  .013 

—  .0009       o 

.11            .36         .20 

5834 

Groomb  3829 

6-S 

31  44.066 

85.0 

+  2.4847  +  .01  76 

+  .017 

+  .0013       o 

.12           .56        .18 

5835 

«  Aquarii 

5-4 

32  34.658 

76.7 

+  3.  1084-  .0050 

+  .008 

—  .0052       o 

.06           .27         .11 

5836 

L9i97 

5-8 

33  12.549 

89.2 

+  3.4014-  .025  1 

+  -013 

+  .0008       o 

.12         I.IO        .26 

5837 

Br  2987 

4.8 

33  15-831 

75-2 

+  2.4559+.oi83 

+  .018 

—  .0060       o 

.09           .39         .16 

5838 

Br  2994 

5-3 

33  17-901 

78-5 

+  1.4843  -.005  1 

—    .010 

+  .0391  +  11 

.04           .28        .IO 

5839 

Br  2984 

7-5 

34    0.361 

71.4 

+  3.1606—  .0081 

+  .008 

—  .0029      o 

.08           .36        .16 

5840 

Br  2985 

6.1 

34    2.203 

66.3 

+  2.9003  +  .0060 

+  .010 

-  .0034       o 

.11            .44         .22 

5841 

Pulkjs  1303  m 

8.1 

34  14.848 

73-8 

+  3-2037-  -0096 

+  .008 

+  .0174       o 

.11            .50         .21 

5842 

L  9198 

6.1 

34  26.489 

90.7 

+  3.8579-  -0700 

+  .050 

+  .0072—    I 

.15         1.05          .25 

5843 

Groomb  3847 

5-4 

34  41-836 

77-9 

+  2.3503  +  .0199 

+  .020 

+  .0061+    I 

.15        .66      .26 

5844 

Br  2990 

5-o 

34  46.369 

85.8 

+  2.6856  +  .OI42 

+  -013 

.OOOO         0 

.05        .32      .09 

5845 

L  9205 

6.2 

3447.624 

82.8 

+  3-3587-  -0225 

+    .012 

—  .0074+  I 

.13        .81      .26 

5846 

Pi  176 

7-i 

34  5i.47i 

71.0 

+  3.1680—  .0077 

+    .008 

+  .OIII         0 

.11            .46         .21 

5847 

Br  2989 

6-5 

34  56.349 

54-2 

+  2.9042  +  .0062 

+    .010 

+  .0003       o 

-16        .56      -35 

5848 

Br  2996 

5-3 

35    6.142 

81.0 

+  2.ii99+.oi87 

+  -023 

—  .0002       o 

.06            .34         .12 

5849 

€  Piscis  Aust 

4.2 

35    7-562 

75-i 

+  3.3266—  .0196 

+  .on 

+  .0018       o 

.07            .32         .13 

5850 

)8  Octantis 

4-3 

22  35  50.926 

70.4 

+  6.4158-  .6245 

+  1.848 

—  .0300+19 

.06            .39         .l6 

5805-7  S  App. 


41"  193° 


Princ.  star  is  var.,  3*??  to  4* 


S83I /S  771.     10"  2"  265° 


CATALOGUE   OF   6 1 88    STARS   FOR   IQOO 


235 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

n'andioo  A(i' 

Prob.  Errors. 
SEp.  100  ii'  Sio 

Remarks. 

5801 

o        /           // 

-  15    5  49-4° 

70.7 

ft                     ft 

+  18.306  +  .  181 

n 

-  .18 

// 
—  .041       o 

//         //       tt 

.09      .37    .17 

56  Aquarii 

5802 

-2635    4.00 

84.0 

+  18.301  +  .  188 

—  .20 

—  .060       o 

•  ii      -55    -18 

41  G  Piscis  Aust  £ 

5803 

-ii  ii  23-35 

70.1 

+  i8.332  +  .i78 

-  -17 

-  .030      o 

.04      .18    .08 

5804 

+  41  ii  41.48 

63-1 

+  18.351  +  .  138 

-  .09 

—  .on       o 

.09      .35    .18 

5  Lacertae 

5805 

+  57  53  31-88 

75-8 

+  18.374+.  122 

-  -07 

+  .OIO         O 

.10      .34    .15 

See  8  Cephei  * 

5806 

+  32    338-36 

73-6 

+  18.349  +  .  152 

—  .11 

—  .016      o 

.08      .37    .16 

38  Pegasi 

5807 

+  57  54  11-67 

59-7 

+  18.368  +  .  122 

-  -°7 

+  .003       o 

.04      .17    .10 

See  Br  2972  * 

5808 

-32  51  32.23 

76.2 

+  18.360+.  192 

—      .22 

—  .018       o 

.09      .39    .16 

Dunlop.    7*l'53o"i72° 

5809 

+  78  1633.79 

66.6 

+  i8-346+.O2i 

-      .09 

-  -037       o 

.07      .28    .14 

28  Cephei  pl 

5810 

+  42  36  38.36 

49.0 

+  18.388+.  142 

—      .IO 

—  .002       o 

.10      .41    .27 

6  Lacertae 

5811 

—  62  29  44.85 

83-6 

+  18.359+.  230 

-      .36 

-  -034      o 

.10      .64    .20 

5812 

-ii  25    5-°3 

72-3 

+  i8.357  +  .i76 

-      -17. 

—  .041       o 

•°8      -35    -i5 

58  Aquarii 

5813 

+  4946    5.67 

71.7 

+  i8.438+.i34 

-      .08 

+  .013+  I 

.04      .17    .07 

Br  2975.  7  Lacertae 

5814 

+  1942  51.95 

62.2 

+  18.467  +  .  158 

-      -13 

+  .022+     I 

.10         .39      .21 

39  Pegasi 

58i5 

+  39  15  S4-96 

67.6 

+  18.445  +  .  143 

—      .IO 

—  .009      o 

.09         .51      .24 

5816 

-10    7  27.23 

68.8 

+  18.483  +  .17  1 

~      -17 

+  .OOI          O 

•13         -51      -25 

5817 

-   2    5  20.57 

62.6 

+  18.451  +  .  167 

-      .16 

-  -°33      o 

.11          .36      .20 

60  Aquarii 

5818 

+  78  1839.81 

70.7 

+  18.474+.  025 

-      .09 

-.013      o 

.08         .30      .14 

29  Cephei  (p2) 

5819 

-21    13   13.96 

73-3 

+  18.347  +  .  178 

-      -19 

-.148+  I 

.08         .28      .13 

5820 

+    04  50.73 

74-6 

+  18.425  +  .  164 

-      .16 

-  .079      o 

.12         .51      .22 

5821 

+  56    6  27.12 

76.4 

+  18.559+.  122 

-      -°7 

+  -045       o 

.10      .36    .16 

5822 

—  24  30  29.28 

80.2 

+  18.518+.  176 

—      .20 

—  .006       o 

.11         .59      .21 

162  G  Aquarii 

5823 

+  69  23  44.73 

69-5 

+  18.596  +  .090 

-      .04 

+  .070+  I 

.08         .33      .16 

Z  2924.  6M7-7MJ  o'.'j  271°,  slow 

5824 

-  °  37  58-99 

73-o 

+  18.474+.  164 

-      .16 

-  -054      o 

.03         .l6      .06 

5825 

-I75835-68 

65.6 

+  18.494+.  172 

-      -19 

—  .041       o 

.12         .40      .22 

61  Aquarii 

5826 

+  69  Si  25-99 

73-8 

+  i8.559+.o87 

-      .04 

+.023+  I 

.08         .30      .14 

52923.   9«?29'.'547° 

5827 

+  75  42  39-8° 

72-3 

+  i8.537  +  .o5i 

-      -°5 

—  .001      o 

.05         .28      .12 

5828 

-4i    5  55-25 

89.1 

+  i8.4s8  +  .i87 

-      .24 

-.085      o 

.11         .58      .16 

50  G  Gruis 

5829 

—  32  10  50.88 

77.0 

+  18.501  +  .  179 

—      .21 

-.052      o 

.12         .64      .24 

47  G  Piscis  Aust 

5830 

+  1945  34-44 

81.5 

+  18.436+.  152 

-      -14 

-.118      o 

.IO        .51      .l8 

5831 

—  41    6  26.49 

84.1 

+  18.482  +  .  186 

-      -23 

-.077      o 

.14         .63      .22 

51  G  Gruis  (<r2)* 

5832 

+  39    637.24 

7i-5 

+  i8.557  +  .i38 

—      .11 

—  .Oil         0 

.12         .63      .27 

}See  Appendix 

5833 

+  39    6  59.53 

56.7 

+  i8.S53  +  .i38 

—      .11 

—  .015      o 

.10         .37      .22 

18  Lacertae 

5834 

+  4933  10-33 

81.9 

+  18.587  +  .  128 

-      .09 

+  .009      o 

.11         .45      .I? 

5835 

-   44438.12 

63-4 

+  18.491  +  .  160 

-      -17 

-.115       o 

.06         .26      .14 

5836 

-3336    6.19 

87.4 

+  18.664+.  175 

—     .22 

+  .038       o 

•13    i-35    -33 

49  G  Piscis  Aust 

5837 

+  5i    I43-38 

66.0 

+  18.527  +  .  124 

-     .09 

—  .IOI         0 

.09      .26    .14 

9  Lacertae 

5838 

+  73    7  26.35 

75-7 

+  18.650+.  074 

-     .04 

+  .O2I+     2 

.05      .25    .10 

31  Cephei 

5839 

-1032  53.47 

72-9 

+  18.648+.  161 

-     -I? 

—  .004       o 

•07       -33     -!4 

64  Aquarii 

5840 

+  19    o  16.31 

66.4 

+  18.549+.  147 

-     .14 

—  .104      o 

.10         .39      .20 

40  Pegasi 

5841 

-13    753-88 

67.6 

+  18.494+.  164 

-     .18 

-.166+  I 

.09         .38      .19 

22928.  8l'8-8"!l94"3i30 

5842 

-57  5636-74 

86.5 

+  18.664+.  198 

-     -31 

—  .002       o 

.12         .69      .20 

10  G  Tucanae 

5843 

+  56  16  34.20 

73-i 

+  18.652  +  .  117 

-     -07 

—  .022       o 

.14         -SI      .23 

h  1796.    ii1"  29"  15° 

5844 

+  38  31  46.72 

75-3 

+  18.668  +  .  134 

—     .11 

—  .009       o 

.05      .24    .10 

10  Lacertae 

5845 

—  31  10  27.86 

78.1 

+  18.468+.  170 

—     .21 

—  .209      o 

.13         .69      .26 

51  G  Piscis  Aust 

5846 

-   9  52  54-27 

71.1 

+  18.721  +  .  160 

'     -17 

+  .042+  I 

.10      .43    .19 

5847 

+  19    936.64 

55-8 

+  18.663  +  .146 

-     -14 

—  .019       o 

•13      -55    -32 

41  Pegasi 

5848 

+  63    3  52-45 

72.6 

+  18.668+.  104 

-     .06 

—  .019       o 

.06     .25    .11 

30  Cephei 

5849 

-27  33  54-82 

76-3 

+  18.686+.  168 

—      .21 

—  .002       o 

.08      .34    .14 

5850 

—  81  54  20.82 

7i-4 

+  i8-7i6+.326 

-1.24 

+  .005-     2 

-°5      -35    -i4 

236 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


Ho. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

HL  and  100  A  p. 

Prob.  Errors. 
aEp.     looji     aio 

M 

h     m          s 

s               a 

s 

a 

//             //          // 

5851 

Pi  186  m 

6.0 

223555-3I3 

82.5 

+  2.  97  1  1  +  .0040 

+   .009 

+  .0185       o 

.09         .58       .18 

5852 

Br  2995 

4.6 

36    7.688 

71.0 

+  2.6234+.oi66 

+   -015 

+  .0090+   I 

.08         .34       .15 

S8S3 

£  Pegasi 

3-5 

36  28.465 

71.8 

+  2.  9909  +.0024 

+   .009 

+  .0052      o 

•03         -IS       -06 

5854 

/?  Gruis 

2.1 

36  41.876 

77-3 

+  3.6017-.  0435 

+   .026 

+  .0125—    I 

.09         .38       .15 

5855 

Br  2991 

6.8 

36  48.446 

79-6 

+  3.3470-  .0215 

+   .OI2 

+  .OO2O         0 

.10         .57       .20 

5856 

Br  3002 

5-4 

36  59-897 

68.0 

+  2.6775  +  .OI50 

+   .014 

—  .0017      o 

.13         .58       .28 

5857 

Pi  195 

6-3 

37    1-131 

78.8 

+  2.  9608  +.OO4  1 

+   .009 

+  .0064       o 

.12           .63         .23 

5858 

o  Pegasi 

4-9 

37    3-645 

63-7 

+  2.  8119+.  OIO4 

+  .on 

—  .0005      o 

.12            .48         .25 

5859 

Paris  32559 

7-4 

37  35-89I 

86.4 

+  3.  2672-.  0153 

+  .010 

+  .0031       o 

.13            .90         .25 

5860 

p  Gruis 

5-° 

37  42-063 

86.8 

+  3-4939-  -0346 

+  .019 

—  .0004       o 

.13        .86      .24 

5861 

Br  2998 

7-5 

37  45-585 

64.2 

+  3.1600—  .OO8O 

+  .008 

—  .0004      o 

.14        .48      .26 

5862 

Pi  200 

6.9 

37  49-o88 

68.4 

+  3.1469—  .0070 

+  .008 

+  .0017       o 

.15        .52      .27 

5863 

Br  3001 

6.8 

38    0.955 

77-9 

+  3-I349--°°62 

+  .008 

+  .OOII         0 

.08        .40      .15 

5864 

Br  3000 

4.8 

38  12.434 

76.6 

+  3-2348-  -0133 

+  .010 

—  .0015      o 

.11            -54         .21 

5865 

i)  Pegasi 

3-° 

38  18.808 

77-5 

+  2.8O72  +  .OIIO 

+  .on 

+  .0008      o 

.03            .20         .O? 

5866 

Groomb  3887 

7.2 

39  12.043 

79-6 

+  O.2III—  .1516 

-  -438 

+  .0099+  5 

.08            .46         .16 

5867 

17  Gruis 

4-9 

39  29-643 

72.0 

+  3.  7080-  .05  7  2 

+  -039 

+  .OO2I         O 

•M       -54      -25 

5868 

Groomb  3869 

6-5 

39  34-229 

81.0 

+  2.7oo5  +  .oi50 

+  .014 

—  .0006      o 

.10       .54      .19 

5869 

Br  3005 

5-3 

39  37-804 

81.6 

+  2.  6683  +  .Ol6o 

+  -015 

—  .0008      o 

.06       .33      .11 

5870 

L  9229 

5-7 

39  46.525 

81.8 

+  3.5600—  .0422 

+  -025 

—  .0051+   I 

.18       .92      .32 

5871 

Br  3004 

6.1 

40    3-3I7 

78.9 

+  3.2984-  .01  79 

+  .on 

+  .0056      o 

.09       .48      .18 

5872 

Br  3006 

6-5 

40  36.250 

64.6 

+  2.  9151  +  .0064 

+  .010 

—  .0024      o 

•09        -33      -17 

5873 

t  Octantis 

5-6 

41    2.997 

90.2 

+  5.8l68—  .4790 

+1.236 

+  .0029—    I 

.16      1.14      .28 

5874 

£  Pegasi 

4-3 

41  41.788 

67.6 

+  2.9953  +.0035 

+  .009 

+  .0154+  I 

.07        .32      .15 

5875 

A  Pegasi 

4.0 

41  42.815 

77-9 

+  2.  886  1  +  .0084 

+  .010 

+  .0042      o 

.03        .20      .07 

5876 

Groomb  3882 

6.0 

41  43-985 

79.0 

+  2.6529+.OI77 

+  .016 

+  .0131+  I 

.11        .52      .19 

5877 

L  9251 

7.0 

42    6.108 

84.6 

+  3-4235-  -0301 

+  .017 

—  .0064+   I 

.11        .60      .19 

5878 

Br  3007 

5-5 

42  10.898 

62.7 

+  3.  2275-.  0136 

+    .010 

—  .0080+    I 

.12           .45         .24 

5879 

Br  3009 

5-7 

42  24.236 

68.2 

+  3.1902—  .0102 

+  .009 

+  .0024      o 

.09           .33         .16 

5880 

e  Gruis 

3-6 

42  30.981 

77-9 

+  3.6476-  .05  1  7 

+  -034 

+  .OIII—     I 

.IO           .42         .16 

5881 

Br  3011  »./. 

7-6 

42  40.882 

66.5 

+  3.0959-  .0045 

+  .008 

—  .0132+  I 

•09       -33      -i7 

5882 

Br  3012 

6.4 

43  I4-53I 

72.7 

+  3.1614—  .0081 

+  .008 

+  .0030      o 

•07        -33      -14 

5883 

Br  3014 

6-5 

43  24.828 

74.1 

+  2.3736  +  .0227 

+  .024 

+  .0015      o 

.10       .44      .19 

5884 

T  Aquarii 

4.2 

44  17.888 

7i-5 

+  3.  1  803  -.0098 

+  .009 

—  .OOI  I         O 

.04        .24      .10 

588s 

ft  Pegasi 

3-7 

45  10.553 

73-3 

+  2.  8915  +  .0092 

+   .010 

+  .0107       o 

.04            .20         .08 

5886 

L9275 

5-6 

45  20.763 

88.3 

+3.4299-  .0312 

+  .018 

+  .0027       o 

.13           .82         .22 

5887 

Groomb  3900 

5-6 

45  38-613 

59-4 

+  2.4653  +  .0229 

+  -023 

+  .0099+  I 

.14        .66      .36 

5888 

L  9268 

6.4 

45  40.502 

91.6 

+  3-9334-  -0918 

+  .084 

—  .0013+    I 

.15         I.O2         .24 

5889 

Br  3015 

6-3 

45  5o-l69 

80.6 

+  3-3i85-.02i2 

+  .012 

+  .0001       o 

.14        .68      .24 

5890 

Br  3018 

6.1 

45  5!-o79 

78.7 

+  2.6983  +  .01  70 

+  -015 

+  .0009      o 

.09      .28     .13 

5891 

i0Cephei 

3-6 

46    7-137 

72.1 

+  2.I247  +  .O227 

+  .029 

—  .OIIO—     I 

.03      .15     .06 

5892 

Abo  528 

8.2 

46  26.182 

72.2 

+  3.  0006  +  .0044 

+  .009 

+  .0290       o 

.14      .58     .26 

5893 

•y  Piscis  Aust 

4.6 

46  58.116 

80.9 

+  3.3461—  .0242 

+  .014 

—  .0024       o 

.09        .44      .16 

5894 

T  Pegasi 

5-3 

47  19.961 

67.4 

+  3.0388+.  0026 

+  .009 

+  .0347       o 

.08      .28     .14 

5895 

X  Aquarii 

3-8 

47  23-880 

74-3 

+  3.1320—  .0062 

+  .008 

+  .0003       o 

.03       .18     .07 

5896 

Br  3028  m 

5-9 

47  28.318 

67.1 

+  2.3323  +  .0250 

+  .028 

+  .0154+     2 

.09      .39    .19 

5897 

Br  3023 

5-i 

47  3i-3i8 

66.0 

+  2.<>972  +  .oi8o 

+  .016 

+  .0095  +   I 

.10           .44        .22 

5898 

p  Indi 

6-3 

47  42-250 

82.4 

+  4.2404-.  1447 

+  .182 

—  .0099+  I 

.13        .68      .22 

5899 

Br  3038 

5-i 

47  52-955 

75-o 

—  0.1051—  .2362 

-  -852 

+  .0176+  6 

•°7        -39      -15 

5900 

Pi  241 

5-9 

22  48      6.900 

72.6 

+  2.  9500+.  0058 

+  .010 

—  .0017       o 

.14        .62      .27 

586902479-     nMi5"i29°-  5879X2943.     9^2  26"  1 1 7°,  relative  motion. 

5881  Z  2944.  7^9  3"  258°,  very  slow;  8M  47"  130°,  relative  motion. 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


237 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i/  and  i  oo  A  p.' 

Prob.  Errors. 
SEp.  too  n'  8  10 

Remarks. 

S8SI 

Of               It 

+  14     I  24.00 

81.6 

//           // 

+  18.847  +  .  148 

M 

—  .14 

// 

+  -I34+    i 

a         a       it 
.08      .49    .16 

Hough  296.  t"8-6?8  o'.'3  72= 

5852 

+  43  45  U-Sa 

65-5 

+  18.728+.  129 

—  .10 

+  .009      o 

.07      .27    .14 

ii  Lacertae 

5853 

+  10  18  33.15 

68.4 

+  18.718+.  148 

-•!5 

—  .012       o 

.03      .14    .06 

5854 

-47  2427.40 

77-8 

+  18.716  +  .  179 

-•25 

—  .021+    I 

.08      .35    .14 

5855 

-2953    o-7S 

78.6 

+  18.727  +  .  165 

—  .21 

—  .014       o 

.10      .51    .19 

19  Piscis  Aust 

5856 

+  39  42  10.26 

59-9 

+  18.739+.  130 

—  .11 

—  .007       o 

.11     .41   .23 

12  Lacertae 

5857 

+  135938.36 

72.2 

+  18.722  +  .  145 

-.14 

-.025       o 

.11         .49      .22 

5858 

+  284?    7-55 

57-8 

+  18.713  +  .  137 

—  .12 

-  -035       o 

.IO         .42      .24 

5859 

—  22    IO  52.91 

88.4 

+  18.781  +  .  160 

-.19 

+  .016      o 

•12      1.03      .25 

L  9221 

5860 

—  41  56    8.00 

82.1 

+  18.685  +  .  171 

-•23 

—  .084       o 

•12         -77      -25 

5861 

-  10  37  35-83 

69.2 

+  18.783  +  .  154 

-•17 

+  .013       o 

.12         .45      .22 

65  Aquarii 

5862 

-   8  50    6.34 

66.1 

+  i8.767  +  .i53 

-•I? 

-.005      o 

.11         .40     .21 

S2935.     8M2'.'63I2° 

5863 

-   7  29  11.71 

76.4 

+  18.757  +  .  152 

-•17 

—  .021       o 

•07      -33    -13 

67  Aquarii 

5864 

-19  21  13.35 

77-3 

+  18.756  +  .  157 

-.19 

—  .028       o 

.10      .39    .16 

66  Aquarii  (g  l)  g 

5865 

+  29  41  52.99 

75-z 

+  18.752  +  .  135 

—  .12 

-  -°35      ° 

.04     .23    .09 

5866 

+  80  52    9.04 

74-4 

+  18.819+.  003 

-•13 

+  .005      o 

.08      .39    .16 

5867 

-54    133-9° 

69-5 

+  18.840+.  178 

-.28 

+  .017       o 

.11         .44     .21 

12"  24"  185° 

5868 

+  38  56  29.08 

77-7 

+  i8.8n  +  .i27 

—  .11 

—  .014      o 

.09        .43      .16 

•S,  2942.    8T8  3"  280° 

5869 

+  41  17  39.64 

74-6 

+  18.833  +  .126 

—  .11 

+  .006      o 

.07         .31      .13 

13  Lacertas  * 

5870 

—  47    4  21.  10 

81.0 

+  18.814+.  170 

-•25 

—  .017       o 

.14        .82      .28 

62  G  Gruis 

5871 

-25  45  46.26 

82.9 

+  18.850+.  157 

—  .20 

+  .OIO         O 

.09        .48      .16 

20  Piscis  Aust 

5872 

+  18  50  20.86 

63.0 

+  18.905  +  .136 

-.14 

+  .049       o 

.08        .32      .17 

45  Pegasi 

5873 

—  80  39    4.80 

86.7 

+  i8.86i  +  .278 

-.96 

—  .008       o 

.13        .80     .23 

5874 

+  11  3935-51 

67-5 

+  18.392  +  .  139 

-•IS 

—  .496+  I 

.06         .25      .12 

h  301.    12*"  12"  110° 

5875 

+  23    2  21.34 

75-i 

+  i8.875+.i33 

-•13 

—  .014      o 

.04         .19      .08 

5876 

+  44    i    7.14 

73-5 

+  18.914+.  122 

—  .IO 

+  .025+  I 

.IO         .40      .l8 

5877 

-  38  44  5°-34 

84-5 

+  18.826+.  158 

-•23 

-  .074      o 

.12         .67      .21 

67  G  Gruis 

5878 

-20    8    6.38 

66.4 

+  18.694+.  148 

-.19 

—  .208      o 

.12         .40      .21 

68  Aquarii  (g2) 

5879 

-1435    i-37 

61.1 

+  18.896+.  146 

-.18 

-.013      o 

.08         .26      .15 

69  Aquarii  r  l  * 

5880 

-51  5033.98 

78.6 

+  18.850+.  169 

-.27 

—  .062  +   I 

.08         .37      .14 

5881 

-   444  52.28 

63.6 

+  18.623  +  .140 

-•17 

-.294-  I 

.08         .29      .l6 

* 

5882 

-ii    5    i-47. 

74-9 

+  18.941  +  .144 

-•17 

+  .008       o 

•07      -33    -13 

70  Aquarii 

5883 

+  57  57  18-81 

73-9 

+  18.943  +  .IO6 

-.07 

+  .005       o 

.10      .34    .16 

5884 

-14    7  i3-83 

70.7 

+  18.927  +  .142 

-.18 

-  .036      o 

.05         .22      .IO 

71  Aquarii  r2 

5885 

+  24    4  24.26 

72.8 

+  18.943  +  .  127 

-•13 

-  -045     ° 

.04         .21      .09 

• 

5886 

-3941  11.41 

86.4 

+  18.978+.  152 

-•23 

—  .015      o 

.11         .63      .19 

69  G  Gruis 

5887 

+  55  22  20.19 

54-5 

+  19.039+.  107 

-.09 

+  .038      o 

.14         .63      .38 

5888 

-  63  43    4*39 

88.1 

+  18.959+.  174 

-•34 

-  -043     ° 

.12         .71      .20 

1  8  G  Tucanae 

5889 

-3°    357-55 

78.6 

+  19.005  +.146 

—  .21 

—  .001       o 

.14         .67      .25 

60  G  Piscis  Aust 

5890 

+  4i  25  25.74 

72-3 

+  19.006+.  117 

—  .11 

—  .001       o 

.08         .27      .13 

14  Lacertae 

5891 

+  65  40  27.88 

68.8 

+  18.893  +.090 

-.06 

—  .121          0 

.03         .14      .06 

5892 

+  13  26    2.73 

68.0 

+  I9.237  +  .I3I 

-.14 

+  .214+  I 

.IO         .46      .22 

5893 

-33  2421.23 

76.9 

+  19.006+.  145 

—  .21 

-.032      o 

.10      .47    .19 

h  5367.   9"  4"  268° 

5894 

+  9  18  12.29 

64.8 

+  19.091  +  .  132 

-•15 

+  •043+    2 

.08         .27      .14 

5895 

-   8    642.53 

72-5 

+  19.085  +  .  134 

-•I? 

+  .036       o 

.03         .16      .07 

5896 

+  61    953-79 

6i-5 

+  19.093  +  .098 

-.08 

+  .042+   I 

.08         .32      .I? 

52950.  6f2~jf^  2"  308° 

5897 

+  42  46  50.52 

58-4 

+  19.069  +  .  115 

—  .11 

+  .016      o 

.10         .39      .22 

15  Lacertae  * 

5898 

-7036  27.73 

83-7 

+  19.131  +  .  183 

-.42 

+•073     ° 

.11         .63      .20 

5899 

+  82  37  23.67 

80.0 

+  19.117—  .012 

-.18 

+  .054+  I 

.06         .31      .11 

34  H  Cephei  * 

5900 

+  16  1837.66 

70.4 

+  19.047  +  .124 

-.14 

—  .022       o 

.12         .53      .24 

5897/8451.     HM  29"  131° 


5899  02  482.     io"»  3'.'5  34°- 


PRELIMINARY  GENERAL   CATALOGUE   OF   STARS   FOR 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  100  A  n 

Prob.  Errors. 
a  Ep.      loop     a  10 

M 

h     m          s 

s                s 

s 

s 

//                 n             „ 

5901 

Br  3021 

6.1 

22  48  I2.8l8 

75-7 

+  3.1621—  .0085 

+  .009 

+  .OOII         O 

.07            .36         .14 

5902 

Br  3024 

7-4 

48  50.707 

76.0 

+  3.1673—  .0088 

+  .009 

+  .0028       o 

.09            .57          .21 

5903 

Groomb  3918  m 

5-9 

49  11.562 

65.0 

+  2.6754+.  0188 

+  .017 

—  .0015       o 

•15        -70      -35 

S9»4 

8  Aquarii 

3-4 

49  2°-633 

66.9 

+  3.1880—  .0109 

+  .009 

-  .0033       o 

.05        .20      .10 

5905 

Br  3027 

6.7 

4921.711 

75-8 

+  3.  1258-  .0059 

+  .008 

—  .0016       o 

.10        .46      .19 

5906 

L  9295  m 

7.2 

49  26.550 

94-7 

+  3-SI57--°444 

+  .029 

—  .O229+     2 

.14            .96         .20 

5907 

Br  3026 

5-8 

49  28.077 

61.9 

+  3-I794--om 

+  .OIO 

—  .0152+     I 

.12            .45         .25 

5908 

Br  3030 

6-3 

49  52.522 

80.5 

+  3.0700—  .0016 

+  .008 

+  .0014      o 

.09            .38         .15 

5909 

Pi  250  m 

6.1 

49  S9-798 

76.0 

+  3.  1124-  .0047 

+  .008 

+  .OOI2          0 

.10           .54        .21 

S9io 

p  Pegasi 

5-o 

5°  n-597 

76.6 

+  3.oi88  +  .oo22 

+  .009 

+  .0048       o 

.11             .51          .20 

59" 

8  Piscis  Aust 

4-4 

50  24.665 

83-9 

+  3-3344-  -0237 

+  .014 

+  .0018      o 

.11             .78         .23 

59" 

PulkM  3358 

S-8 

51    4.896 

87.0 

+  2.788i  +  .oisi 

+  .014 

+  .0015       o 

.11             .62         .18 

5913 

Br  3034 

5-7 

51  49.602 

73-3 

+  2.7305  +  .oi77 

+  .015 

—  .0005      o 

.09            .38         .16 

59H 

Groomb  3930 

5-i 

52    2.885 

63.1 

+  2.  6202  +  .02l8 

+  .021 

+  .0002       o 

.15            .70         .36 

5915 

Br  3033 

6.6 

52    6.602 

84.8 

+  3-I074--oo45 

+  .009 

—  .0014       o 

.08            .48         .IS 

59i6 

a  Piscis  Aust 

I.O 

52    7-591 

70.2 

+  3-3239-  -02H 

+  .013 

+  .0250—    I 

.03            .20         .09 

5917 

Br  3035 

5-7 

5233-I25 

72.2 

+  2.  9440  +.0080 

+  .010 

+  .0145      o 

•09        -33      -IS 

59i8 

Groomb  3933 

5-2 

52  39.271 

75-2 

+  2.64i8  +  .O2i4 

+  .02O 

+  .0016       o 

.09        .46      .19 

5919 

L  93l6 

6-5 

53    r-°44 

84.6 

+  3-3528-  .0264 

+  .OI6 

+  .OOOI         0 

.11            .70        .21 

5920 

Abo  533  m 

6-7 

53  3°-938 

76.7 

+  3-0395  +  -°o27 

+  .009 

+  .0265+  I 

.11            .56        .22 

5921 

1,9321 

5-8 

54    7-672 

79.1 

+  3.2902—  .0206 

+  .013 

—  .0009       o 

.11            .69         .24 

5922 

Br  3037  m 

6.0 

54  ii-59i 

60.2 

+  2.  9991  +  .0038 

+  .009 

+  .0017       o 

.14           .54        .30 

5923 

Pi  264 

6.6 

54  19-749 

78-9 

+  3.1630—  .0090 

+  .009 

—  .0008       o 

.09           .8l         .27 

5924 

Br  3036 

5-7 

54  19.940 

74-6 

+  3.  0749-  .0014 

+  .O09 

+  .0054       o 

.10        .38      .17 

5925 

Pi  267 

6.0 

54  40.964 

85.0 

+3-2539-  -OI7i 

+  .OI2 

+  .0007       o 

.13            .78         .24 

5926 

£  Gruis 

4-i 

54  58.676 

78-9 

+  3.5667-.  0527 

+  .038 

-.0074+  I 

.11            .58         .21 

5927 

Br  3058 

5-i 

55  12.84- 

80.8 

-0.302-  —  .317- 

+  .063  -+50 

.07            .36         .13 

5928 

L9328 

5-8 

55  i4-94i 

9°-3 

+  3-5478-  -049° 

+  •035 

+  .0073-  I 

.20        I.O4        .28 

5929 

Br  3039 

6.7 

55  30-205 

70.0 

+  3.0770—  .0018 

+  .009 

+  .0024       o 

.10        .36      .17 

5930 

L9333 

5-9 

55  5I-835 

92.8 

+3.2844—  .0200 

+  .013 

+  .0041       o 

.14            .96         .22 

5931 

Radcl  5911 

5-4 

55  52-169 

82.4 

+  2.  5170+.  0262 

+  .026 

+  .0004       o 

.11             .48         .17 

5932 

Br  3040 

6.7 

56  11.828 

74.0 

+  3.  1196-  .0055 

+  .009 

—  .0017       o 

.09            .38         .l6 

5933 

o  Andromedae 

3-7 

57  19-113 

78.8 

+  2.75i8  +  .oi9o 

+  .017 

+  .OO2I          O 

.03            .20         .07 

5934 

Br  3042    % 

6.7 

57  21-115 

70-3 

+  3.  1174-  .0052 

+  .009 

.0000       o 

.11             .44         .21 

5935 

TT  Piscis  Aflst 

S-2 

57  57-905 

80.8 

+  3-3325-  -0254 

+  .016 

+  .0072—    I 

.13            .81          .27 

5936 

Br  3045 

5-2 

58    0.044 

61.0 

+  2.7538  +  .oi94 

+  .017 

+  .0055       o 

.14            .44         .26 

5937 

L9337 

5-7 

58  15-638 

87.7 

+  4.0190—  .1256 

+  -I53 

+  .OO24—     2 

.15            .80         .23 

5938 

K  Gruis 

5-4 

58  44.898 

81.4 

+3-5722-.  0551 

+  .042 

+  .0050      o 

.15            .8l          .28 

5939 

ft  Piscium 

4-5 

58  47.276 

61.3 

+  3.0528+.  OOO2 

+  .009 

+  .0007       o 

•07            -32         -17 

5940 

j8  Pegasi 

Var. 

58  55-535 

75-3 

+  2.  9032  +  .OII9 

+  .OI2 

+  .0144       o 

.04           .21         .08 

5941 

L  9359 

7-2 

59  25.646 

90.0 

+  3-2543-  -Ol84 

+  -OI3 

—  .OOI  I          0 

-13         LOS         -25 

5942 

Br  3052 

4.8 

59  41-539 

64.7 

+  2.682I  +  .0238 

+  .O2  2 

+  .0169+   I 

.11            .38         .20 

5943 

Br  3054 

5-6 

59  44-225 

65.8 

+  2.  27I2  +  .  0309 

+  .041 

+.0043+  I 

.IO           .44         .22 

5944 

a  Pegasi 

2.6 

59  46.746 

67.0 

+2.9855  +.0058 

+  .OIO 

+  .0040       o 

.02           .12         .06 

5945 

Br  3048  m 

5-6 

22  59  56.920 

79-5 

+3.  1306-  .0057 

+  .009 

+  .0082      o 

.06           .30        .11 

5946 

Br  3049 

7.6 

23    o    6.356 

75-o 

+3.  1237-.  0058 

+  .009 

+  .0010      o 

•13        -57      -24 

5947 

L  9332 

6-3 

o  14-915 

86.1 

+  5-0523-  -3773 

+  .964 

+  .O22I—  10 

.12            .90         .24 

5948 

Br  3051 

7-2 

o  40.331 

66.1 

+  3.  1236-  .0058 

+  .009 

+  .0003       o 

.15            .44         .24 

5949 

e  Gruis 

4.4 

i  14.838 

82.3 

+  3.3960-  .0353 

+  .023 

-  .0043      o 

.09            .45         .16 

5950 

Br  3053 

4-7 

23    i  18.630 

81.1 

+  3.  2301-.  0158 

+  .OI2 

+  .0050      o 

.10        .45      .16 

5903  /3  382.     s^ 
5906  Innes.     -if6-8>*6  o'.'s  ±,  185°. 


o'.'g  330°,  slow  binary,  IIM  27"  354° 


5913  2  2960.     IIM  27"  345°. 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


239 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

H-'andiooAp.' 

Prob.  Errors. 
SEp.  100  |i'  Sio 

Remarks. 

5901 

O           /               It 

-12      854.18 

75-3 

rr                    // 

+  19.072  +  .  134 

// 

-•i? 

+  .OOI          0 

It                   tf               It 

.06      .32     .13 

74  Aquarii 

5902 

-12  43  17.14 

74-4 

+  19.039+.  133 

-.18 

—  .049       o 

.08       .44    .18 

75  Aquarii 

5903 

+  44  13     2-89 

61.8 

+  19.098  +  .  no 

—  .11 

.000       o 

.12         .56      .31 

* 

5904 

—  16  21    9.77 

68.6 

+  19.081  +  .133 

-.18 

—  .021          0 

.05         .22      .10 

5905 

-    7  44  10.46 

72.4 

+  19.068  +  .  130 

-•17 

-  -°34      o 

.09         .35      .16 

78  Aquarii 

5906 

-49    i  34.38 

92.0 

+  19.154+.  146 

-•25 

+  .050-     I 

.12         .73      .18 

71  GGruis  T2* 

5907 

—  16  48    7.64 

69-4 

+  19.024+.  132 

-.!8 

-.O8l-     I 

.12         .42      .21 

77  Aquarii 

5908 

+  031  54.83 

75-6 

+  19.123+.  127 

-.16 

+  .007       o 

.08         .29      .13 

i  Piscium 

5909 

-   5  3i  14-32 

75-8 

+  19.116  +  .  128 

-•17 

-.003       o 

.09         .49      .19 

£178.  6V8*io'/8333e 

59"> 

+  8  16  56.75 

67.6 

+  19.138+.  124 

-•IS 

+  .014      o 

.11         .40      .20 

59nl 

-33    426.53 

79-4 

+  19.158+.  137 

—  .21 

+  .028      o 

.11         .59      .21 

/J772.    9"5  5"  238° 

59" 

+  35  49    4.52 

85-4 

+  19.162+.  112 

-•13 

+  .015       o 

.12         .57      .18 

5913 

+  41    4  11.56 

64.1 

+  19.160+.  IO9 

—  .12 

—  .006      o 

.09         .28      .l6 

1  6  Lacertae  * 

59H 

+  49  ii  57.99 

57-1 

+  19.160+.  IO4 

—  .10 

—  .012          O 

.13         .60      .34 

5915 

-    5  20  40.33 

76-4 

+  19.182  +  .  124 

-•17 

+  .008      o 

.08         .35      .14 

S9i6 

-30    9    8.18 

71-3 

+  I9.008+.  134 

—  .20 

-.166+     I 

.04         .23      .IO 

Fomalhaut.  Par.,  o'.'i3 

5917 

+  20  13  56.83 

70.6 

+  19.236+.  II? 

-.14 

+  .051+     I 

.O?         .28      .13 

51  Pegasi 

S9i8 

+  48    858.77 

73-4 

+  I9.I73+.  104 

—  .10 

-.015       o 

.09         .40      .I? 

5919 

-36    3  19.50 

77.1 

+  19.076+.  133 

—  .21 

—  .121          O 

.13         .71      .27 

67  G  Piscis  Aust 

5920 

+  8  49  31.68 

72.0 

+  19.058+.  120 

-•IS 

-.151+     I 

.10      .43    .19 

OS  536.  7«j-7»»7  o'/3  165°,  fiied 

5921 

-295954.28 

77-7 

+  19.  227  +  .  128 

—  .20 

+  .003       o 

.11         .65      .24 

68  G  Piscis  Aust 

5922 

+  11  ii  38.99 

59-i 

+  I9.i85  +  .n6 

-•15 

—  .041       o 

.12         .45      .26 

52  Pegasi  * 

5923 

-  13  36  24.61 

78.3 

+  19.238+.  122 

-.18 

+  .008       o 

.O?         .65      .22 

Br  30350 

5924 

+  o  25  44.13 

66.0 

+  19.164+.  119 

-.16 

—  .066      o 

.11         .38      .20 

2  Piscium 

5925 

-25  4i  53-77 

80.0 

+  19.162  +  .  125 

-.19 

—  .076      o 

.13         .6l      .22 

69  G  Piscis  Aust 

5926 

-53  J7  25-36 

79-4 

+  19.241  +  .  137 

-.26 

—  .005       o 

.09         .50      .l8 

5927 

+  83  48  39.8! 

81.3 

+  19.281—  .018 

+  .030+  3 

.06         .31      .11 

36  H  Cephei 

5928 

—  51  29  12.66 

84.6 

+  19.243  +  .  136 

-•25 

—  .009      o 

.15         .71      .23 

78  G  Gruis 

5929 

-     0  21      4.47 

66.4 

+  19.271  +  .  116 

-.16 

+  .013      o 

.08         .31      .l6 

3  Piscium 

5930 

-29  23  25.52 

89.2 

+  19.  281  +  .  124 

—  .20 

+  .014      o 

.16    1.16    .29 

71  G  Piscis  Aust 

5931 

+56  2431.82 

88.6 

+  I9.275  +  .093 

-.09 

+  .008      o 

.12         .64      .l8 

5932 

-   7  35  53-41 

72.0 

+  19.265  +  .  117 

-•17 

—  .010      o 

.08         .32      .15 

8  1  Aquarii 

5933 

+  41  47  18.06 

73-2 

+  i9.28i  +  .ioo 

—  .12 

—  .021       o 

.04         .19      .08 

5934 

-   7    639.84 

69.9 

+  19.263  +  .  114 

-•17 

-  .039      o 

.09         .37      .17 

82  Aquarii 

5935 

-35  17  24.24 

77.0 

+  19.407  +  .  122 

—  .21 

+  .090      o 

.12        .71      .26 

L935° 

5936 

+  42  13  11.27 

59-2 

+  19.3  1  1  +  .099 

—  .12 

—  .007      o 

.11         .39     .23 

2  Andromedae  * 

5937 

—  69  21   39-2O 

86.4 

+  19.404+.  148 

-•36 

+  .080      o 

.12         .71      .21 

80  G  Indi 

5938 

-5430      4.03 

80.4 

+  19.216+.  130 

-•25 

—  .119      o 

.12         .71      .24 

5939 

+  3  l6  53-54 

59-6 

+  19.328+.  109 

-.16 

—  .008       o 

.06         .26      .15 

5940 

+  27  32  24.72 

69.0 

+  19.472+.  104 

-•*3 

+.133+  I 

.04         .18      .08 

2*2  to  2*7 

5941 

-27  40  30.92 

89-3 

+  19.318+.  116 

—  .20 

-  .033     ° 

.14      1.31      .30 

75  G  Piscis  Aust 

5942 

+  49  30  29.82 

54-4 

+  I9-5I8+.094 

—  .11 

+  .161+   i 

.11         .35      .22 

3  Andromedas 

5943 

+  66  40  12.50 

65-5 

+  19.378+.  078 

-.07 

+  .020      o 

•07      -35    -i7 

5944 

+  1440    1.47 

64-5 

+  19.314+.  105 

-•15 

-  .045       o 

.02        .12      .06 

Markab 

5945 

-   8  14    0.78 

69-9 

+  19.380+.  no 

-•17 

+  .017       o 

.05        .22      .10 

83  Aquarii  (h  l)  h* 

5946 

-   8  17  39-13 

70.9 

+  19.368  +  .  109 

-•17 

+  .OO2          O 

.11         .41      .19 

84  Aquarii  (h  2) 

5947 

—  80    i  12.69 

86.2 

+  19.351  +  .  183 

-.67 

—  .018+     I 

.09        .71      .19 

79  G  Octantis 

5948 

-  8  28  35.30 

54-8 

+  19.383  +  .108 

-•17 

+  .004      o 

.10      .30    .19 

85  Aquarii  (h  ") 

5949 

-44    337-73 

82.0 

+  19.358+.  117 

—  .22 

-  -034      o 

.08        .40     .14 

Jacob.    8M  i"  25°,  slow  binary 

5950 

-2417    0.31 

83.2 

+  I9-393  +  -111 

-.19 

.000      o 

.09        .38      .14 

86  Aquarii  c  1 

5922  OS  483.     6M2~7?7  i"  225°,  slow  binary.  5936  ft  "47- 

5045    Aitken  417.     6^4-6*4  o'.'a,  rapid  binary. 


slow. 


240 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   IQOO 


Ho. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H.  and  100  A  p 

Prob.  Errors, 
a  Ep.      100  |i     a  10 

• 

h    m          s 

S                       i 

s 

s 

"            //          t> 

5951 

u  Gruis 

5-8 

23      I    19.678 

88.2 

+  3-3552--  0296 

+  .019 

+  .0046       o 

.12            .75         .20 

5952 

Br  3056 

4.8 

I  57-991 

67.1 

+  3.  0206  +.003  1 

+  .009 

+  .0005       o 

.10        .38      .19 

5953 

Br  3055 

7-7 

i  S9-832 

70.1 

+  3.1232—  .0056 

+  .009 

+  .0024       o 

•IS        -57      -27 

5954 

Br  3057 

4-9 

2   14.421 

67.4 

+  2.9i74+.oi09 

+  .OII 

.0000       o 

.10            .45         .22 

5955 

Br  3061 

4-9 

2  23.062 

73-9 

+  2.  5229+-  0297 

+  •031 

+  .0013       o 

.09            .34         .16 

5956 

Pi  3°5 

6.0 

2  56.563 

81.2 

+  3.  2544-  .0195 

+  -OI3 

—  .0032       o 

.12            .58         .21 

5957 

Br  3063 

5-6 

3    4-885 

76.0 

+  2.7335  +  -0222 

+  .O2O 

—  .0005      o 

•09        -33      -14 

5958 

Br  3064 

6.0 

3  12.713 

71.1 

+  2-7I36  +  .024I 

+  .O2  1 

+  .0150+  I 

.09       .34     .16 

5959 

Br  3059 

5-7 

3  33-583 

70.8 

+3.  07  24-  .0005 

+  .009 

+  .0091       o 

.09        .26      .13 

5960 

Br  3062 

3-8 

4    6.941 

82.2 

+3.2041-.  0138 

+  .OII 

+  .0033       o 

.05       .27     .09 

596i 

L938i 

6.1 

4  24.299 

84.6 

+  3-3443-  -0336 

+  .023 

-.0316+   3 

.15      .84    .26 

5962 

Br  3068 

5-3 

4  28.606 

49-5 

+  3.0267  +  .0029 

+  .009 

+  .OOO2          O 

•i5        -Si      -34 

5963 

Br  3065 

4-9 

4  34484 

80.7 

+  3.2091—  .0146 

+  .OII 

+  .0009       o 

•°9        -39      -i5 

5964 

L  9384 

6.2 

435.821 

86.6 

+  3-3545-  -0312 

+  .O20 

+  .0027      o 

.14        .78      .23 

5965 

t  Gruis 

4.0 

4  42.024 

73-9 

+  3.4138-  .0376 

+  .025 

+  .OI32—     I 

.11        .56      .23 

5966 

•K  Cephei 

4.6 

442.951 

81.2 

+  1.8964  +.0246 

+  .047 

+  .0030+     2 

.04            .22          .08 

507 

Br  3069 

5-4 

4  59-346 

55-i 

+  3.0198+.  0035 

+  .009 

—  .0006       o 

•15            -50         -31 

5968 

L9388 

6.7 

5  22.371 

87.8 

+  3.  2530-  .0200 

+  .013 

—  .0020      o 

.13      i.oo      .26 

5969 

Br  3071 

5-8 

5  27-321 

69-7 

+  2-55i8  +  .0307 

+•033 

—  .0005      o 

.10        .38      .18 

5970 

Pi    2 

7-4 

5  28.943 

7°-5 

+  3.1088—  .0045 

+  .009 

+  .0006       o 

.14        .68      .30 

5971 

Pi  4 

6.0 

5  44-4o6 

74-o 

+  2.9765  +  .0073 

+  .OIO 

+  .0003       o 

.12        .66      .27 

5972 

Br  3070 

6.1 

5  49-824 

67.0 

+  2.  7621  +  .0207 

+  .018 

-.0183-  I 

.08        .28      .15 

5973 

Br  3072 

5-3 

6  41.222 

62.0 

+  3.  02  70  +.0030 

+  .009 

—  .OOI  I          O 

.IO            .38         .21 

5974 

Br  3073 

6-5 

6  57.880 

71.2 

+  2.  9064+.  OII9 

+  .OI2 

—  .0144      o 

.07             .28         .13 

5975 

Br  3075 

4.6 

7  58-015 

72.9 

+  2-7375  +  .025I 

+  .O2  2 

+  .0095+  I 

.08            .27          .13 

5976 

Br  3077 

5-7 

8  27.920 

82.8 

+  2.8723  +.0375 

+  .030 

+  .2522+36 

.04            .27          .08 

5977 

Dpt  2803 

8.0 

8  51.818 

87-5 

+3.  1592-.  0061 

+  .009 

+  •0375      o 

.09            .51          .15 

5978 

<t>  Aquarii 

4-4 

9    8.613 

70.7 

+3.1081-.  0043 

+  .009 

+  .0018      o 

.04            .20         .09 

5979 

L  9407 

6.1 

9  25-871 

88.1 

+3.3416-  .0314 

+  .O2  1 

+  .0091       o 

.12        .68      .19 

5980 

Pulka  3405 

5-6 

10  25.171 

76.2 

+3.0914-  .0030 

+  .009 

—  .0012      o 

.10        .63      .23 

598i 

Br  3078. 

4-4 

10  39.169 

69.6 

+  3.1456—  .0060 

+  .OIO 

+  .0248       o 

.05            .26        .12 

5982 

Br  3080 

6.7 

1053.175 

81.2 

+  2-9242+.OI3I 

+  .OI2 

+  .OOII         O 

•°9        -33      -13 

5983 

L  9412 

5-8 

10  57.027 

83-3 

+3-6435-  -0781 

+  .076 

+  .0248—    4 

.13        .69      .23 

5984 

Br  3085 

5-9 

II  3.777 

73-i 

+  2.H70+.0373 

+  .06S 

+  .0123+  4 

.09           .51         .21 

5985 

y  Tucanae 

4.1 

II  35-699 

71.8 

+  3.5299-  .0636 

+  .056 

—  .0048      o 

.IO           .40        .18 

5986 

X  Aquarii 

5-3 

II  39.976 

69.2 

+  3.1118—  .0052 

+  .009 

—  .0012       o 

.09           .34         .16 

5987 

Br  3086 

5-7 

II  46.245 

77-7 

+  2.  2932+.  0398 

+  .059 

+  .0024       o 

.IO            .56         .21 

5988 

y  Piscium 

3-3 

II  58.869 

72.0 

+  3.  1  093  +.0007 

+  .009 

+  .0502      o 

.03            .l6         .07 

5989 

Br  3084 

5-8 

12      8.706 

72.0 

+  2.72I8+.O29I 

+  .027 

+  .0128+     2 

.08            .36         .16 

5990 

Groomb  4025 

6.8 

12  34-4I8 

72.6 

+  2.8iii  +  .0233 

+  .020 

+  .0097+  I 

-13            ^         -26 

5991 

<f>  Gruis 

5-8 

12  38.863 

86.6 

+  3-3259-  -0308 

+  .O2O 

+  .OI2I—     I 

•16        -75      -24 

5992 

Br  3083 

4-5 

12  42-399 

68.7 

+  3.1202—  .0059 

+  .OIO 

+  .0009       o 

.06        .27      .13 

5993 

Br  3089 

S-o 

13     6.395 

74.2 

+  2.  7696+.  0259 

+  .O22 

+  .0038      o 

.09        .28      .14 

5994 

T  Octantis 

5-7 

13    9-35- 

72.8 

+  10.979—5.236- 

+  .015-  -56 

.04            .28         .12 

5995 

y  Sculptoris 

4-5 

13  25-555 

81.0 

+  3.2500—  .022O 

+  .015 

+  .0020      o 

•07        -39      -13 

5996 

Br  3091 

6.1 

13  38.594 

71.6 

+  2.8363  +  .021  1 

+  .OI8 

—  .0008      o 

.11            .45         .21 

5997 

Br  3087 

5-2 

13  45-6i3 

67.0 

+  3-I235--oo6i 

+  .OIO 

+  .0032       o 

.06      .27     .13 

5998 

Br  3088 

5-4 

13  51.118 

7i-3 

+  3-I593-  -°°84 

+  .OIO 

+  .0203      o 

-07        -34      -IS 

5999 

Br  3090 

5-8 

14  12.877 

72.2 

+  3.1116—  .0036 

+  .009 

+  .0129       o 

.06           .26        .12 

6000 

o  Cephei 

5-i 

23  i4  30-990 

80.0 

+  2.  4453  +  -°4i  6 

+•055 

+  .OIII+     2 

.06            .33         .12 

5962  2  2982.     io1"s"32"  198° 


5981  "2  App.     9M  49"  312° 


<  o'/5. 


CATALOGUE  OF  6188  STARS  FOR  1900 


241 


No. 

Decl.  1900 

ipoch. 

An.  Var.  and 
Sec.  Var. 

3"t 

'and  TOO  Ap.' 

Prob.  Errors. 
>Ep.  loop'  Sio 

Remarks. 

5951 

or           ft 
-3925   58-45 

83-7 

//           // 
+  I9.4io+.n6 

// 

—  .21 

it 

+  .017       o 

n               II           II 

.12         .58      .19 

5952 

+  8  52    9.03 

57-4 

+  19.394+.  102 

-•15 

—  .014       o 

.08         .27      .l6 

55  Pegasi 

5953 

-   8  14    2.55 

69-4 

+  I9-354+-io6 

-•17 

-  -054      o 

.12         .47      .23 

87  Aquarii  (h  *) 

5954 

+  2455  42.03 

65.6 

+  19.376+.  098 

-.14 

-  .038      o 

.08         .35      .17 

56  Pegasi 

5955 

+  58  52  45.51 

60.8 

+  19.423  +  .083 

-.09 

+  .006      o 

.09         .28      .l6 

i  Cassiopeia 

5956 

—  29  21   49.96 

78.1 

+  19.396  +.109 

—  .20 

-  -°33       ° 

.12         .58      .22 

2  G  Sculptoris 

5957 

+  45  5°  49-°4 

7i-5 

+  19.402  +  .090 

—  .12 

-  .030      o 

.09         .28      .14 

4  Andromeda 

5958 

+  48  45    3.22 

67.4 

+  19.  561  +  .090 

—  .11 

+  .126+  I 

.08         .31      .l6 

5  Andromedse 

5959 

+   i  34  59-98 

7°-3 

+  19.552  +  .  101 

-.16 

+  .IIO         O 

.07         .25      .12 

5  Piscium  A 

5960 

-2i  42  54.94 

81.6 

+  19.491  +  .105 

-.18 

+  .037       o 

.06         .28      ,IO 

88  Aquarii  c2 

596i 

-43  24    8.54 

81.7 

+  19.485  +  .108 

—  .22 

+  .025-  I 

.12         .69      .23 

88  G  Gruis 

5962 

+  88    6.18 

42.8 

+  19.463  +  .098 

-•15 

+  .O02          0 

.12         .44      .32 

57  Pegasi  * 

5963 

—  22  59  58.22 

80.4 

+  19.459+.  104 

-.19 

—  .004      o 

•09         -39      -IS 

89  Aquarii  c* 

5964 

-4i    757-35 

83-3 

+  19.428+.  109 

—  .21 

-  .036      o 

.12         .63      .21 

89  G  Gruis 

5965 

-45  47  18.56 

76.0 

+  19.426+.  in 

—  .22 

—  .040      o 

.09         -55      .21 

5966 

+  74  5048.56 

78.6 

+  19.441  +  .058 

-.04 

—  .025      o 

.04         .20      .08 

OS  489.   7"  i",  binary 

5967 

+   9  16  46.84 

43-4 

+  19.450  +.096 

-•15 

—  .022       o 

.IO         .36      .26 

58  Pegasi 

5968 

-3°    3  57-78 

87-5 

+  19.440+.  104 

—  .20 

—  .040      o 

.13      I.I?      .29 

4  G  Sculptoris 

5969 

+  5847  25.61 

58-3 

+  19.  496+.  080 

—  .10 

+  .014      o 

.09         .29      .l8 

2  Cassiopeiae 

5970 

—   6  30  11.02 

71.9 

+  19.47  3  +  .098 

-•17 

—  .009      o 

•13         -51      -23 

5971 

+  17    3    8.24 

73-4 

+  19.455  +  .  094 

-•15 

-  -033      ° 

•13      -55    -24 

5972 

+  43    o  25.05 

63-7 

+  19.302  +  .085 

—  .12 

-.188-  I 

.08      .27    .15 

6  Andromedae 

5973 

+  8  10  37.11 

57-2 

+  19.  501  +  .094 

"•IS 

—  .006       o 

.11      .39    .23 

59  Pegasi 

5974 

+  26  18  25.24 

72.1 

+  19.390+  088 

-.14 

—  .122          O 

.06         .27      .12 

60  Pegasi 

5975 

+  48  51  35-37 

62.8 

+  19.628  +  .082 

—  .12 

+  .096      o 

.O?         .23      .13 

7  Andromedae 

5976 

+  563658.27 

81.8 

+  19.838  +  .090 

—  .10 

+  .296+  5 

.05         .27      .09 

Parallax  o'.'i3 

5977 

-   9  28    4.31 

82.4 

+  19.504+.  095 

-•17 

—  .046+   I 

.08         .39      .14 

S  2993.  &*fs  25"  i??0.  fi*ed 

5978 

-   635  17.31 

70.8 

+  19.364  +  .  092 

-•17 

—  .191       o 

.04         .18      .08 

5979 

-41  38  49.98 

86.6 

+  19.441  +  .099 

—  .21 

—  .120         0 

.11         .57      .17 

92  G  Gruis 

5980 

—   4    2  29.64 

74.6 

+  19.580+.  088 

-•17 

.000      o 

.09         .6l      .23 

598i 

-  9  37  57-57 

67.2 

+  19.571  +  .090 

-•17 

-.013+  I 

.05         .20      .IO 

91  Aqua/ii  ^  *  * 

5982 

+  27  42    9.52 

76.6 

+  19.585  +  .082 

-.14 

-.003       o 

.08         .31      .13 

6  1  Pegasi 

5983 

—  62  32  46.48 

84.0 

+  19.555  +  .  105 

-.27 

-•035+  I 

.11         .63      .20 

25  G  Tucanae 

5984 

+  73  4i    9-63 

76.0 

+  19.597  +  .058 

-.06 

+  .005       o 

.07         .36      .14 

5985 

-5847    2.51 

73-2 

+  19.682  +  .099 

-•25 

+  .081       o 

.08         .38      .16 

5986 

—   8  16  19.22 

60.0 

+  19.590+.  087 

-•17 

-.013      o 

.07         .26      .15 

5987 

+  70  2033.88 

69.2 

+  I9.6i7  +  .o62 

-.07 

+  .012          0 

.IO         .36      .l8 

5988 

+   244    8.83 

73-4 

+  19.627  +  .088 

-.16 

+  .019+     2 

.03         .l6      .06 

5989 

+  52  40  26.79- 

69.1 

+  19.  367  +  .074 

—  .11 

-.244      o 

.09         .33      .16 

5990 

+  44  37  10.63 

66.0 

+  19.545  +  -076 

-•13 

-  .074      o 

.13         .50      .26 

599i 

-41  22      2.56 

83-9 

+  19.496+.  092 

—  .21 

—  .124      o 

.14         .64      .22 

5992 

-   9  43  42-53 

67.6 

+  19.618  +  .  085 

-•17 

-  .003       o 

.06         .23      .11 

93  Aquarii  ^2 

5993 

+  48  28    7.45 

67.2 

+  19.635  +  .074 

—  .12 

+  .006      o 

.08         .24      .13 

8  Andromedae 

5994 

-88    i  52.93 

74-8 

+  19.643  +  .3  1  7 

+  .013      o 

.04         .26      .IO 

5995 

-33    436-56 

79-5 

+  19.568  +  .088 

—  .20 

—  .066      o 

.07         .38      .14 

5996 

+  41  13  38.72 

64-5 

+  19.632  +  .075 

-•13 

—  .006      o 

.10         .38      .20 

9  Andromedas 

.                        ••        .    a    .£, 

5997 

-10    927.05 

62.6 

+  19.642  +  .083 

-•17 

+  .OO2          O 

.06         .24      .13 

95  Aquarii  y  3  ' 

5998 

—  14    o  10.95 

72.1 

+  19.  536  +  .  084 

-.18 

—  .I06+     I 

.06         .31      .13 

94  Aquarii  * 

5999 

-   5  4°  i5-°6 

64.4 

+  19.  632  +  .082 

-•17 

—  .016      o 

.06         .21      .11 

96  Aquarii  * 

6000 

+  67  33  51.48 

66.7 

+  19.  670+.  062 

-.08 

+  .017       o 

.05         .20      .10 

2  3001.  7f8  3"  198°,  slow 

5997  Hough.     12*"  i"  210°  ±,  slow. 


5998  S  2998. 


347° 


5999  h  5394.    IIM  10"  20°. 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


No. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

p.  and  100  A  p 

Prob.  Errors, 
a  Ep.  100  |i  a  10 

M 

h  m     s 

3         S 

. 

i 

it       it      it 

6001 

Br  3093 

5-5 

23  1450.129 

64.6 

+  2.  7826+.  0259 

+  .022 

+  .0017   o 

.13     .48    .25 

6002 

Br  3094 

6.6 

14  59-693 

73-6 

+  2.  8046+.  0262 

+  .023 

+  .O2O2+  2 

.09     .44    .l8 

6003 

Br  3095 

6.0 

15  6.674 

78.8 

+  2.8458+.o2i6 

+  .019 

+  .0038   o 

.11     .40    .l6 

6004 

Br  3092 

5-3 

15  14.884 

54-6 

+  3-°556+-ooi9 

+  .009 

+  .0052   o 

.13     .44    .28 

6005 

r  Pegasi 

4.6 

15  41.197 

84.0 

+  2.  9643  +  .  Oil  I 

+  .OI2 

+  .0020   o 

.04     .27    .08 

6006 

Br  3098 

6.0 

IS  SS-607 

68.7 

+  2.93I5  +  .OI48 

+  -OI3 

+  .0059   o 

.14     .54    .26 

6007 

Pi  55 

6.0 

IS  55-867 

85-2 

+  3.  2034-  .0172 

+  •013 

—  .OO2I    0 

.11   .66   .20 

6008 

Br  3099 

6.0 

16  3-557 

65.8 

+  2.8857  +  .0194 

+  .017 

+  .0097+  I 

.12     .51    .26 

6009 

Br  3103 

5-6 

17  1.929 

75-8 

+  2.92i8  +  .ois6 

+  •013 

+  .0007   o 

.11   .45  .19 

6010 

Br  3102  m 

5-4 

17  24.727 

73-8 

+3.1488—  .0091 

+  .OIO 

+  .0076   o 

.09   .44   .18 

6011 

Br  3106 

6-5 

17  41-653 

63-5 

+  2.  9824+.  0098 

+  .OII 

+  .0007   o 

.14   .50  .27 

6012 

Br  3105 

4.2 

17  43-183 

68.1 

+  3.1560—  .0122 

+  .OII 

—  .0087   o 

•o?   -33   -IS 

6013 

Br  3107 

6.9 

17  47-599 

73-5 

+  3.  0058  +  .0098 

+  .OII 

+  .0226+  I 

.11     .48    .21 

6014 

Pi  64 

7.8 

i?  49-975 

80.6 

+  3.  1512-  .0067 

+  .OIO 

+  .0299—  I 

.07     .90    .27 

6015 

Br  3108 

5-3 

18  1.917 

76.0 

+  3.0232  +  .0055 

+  .OIO 

+  .0016   o 

.10   .39   .17 

6016 

Br  3110 

5-8 

18  4.734 

72.6 

+  2.6584+.  0362 

+.038 

+  .OOOI    0 

.11     .58    .25 

6017 

Pi  69 

7.2 

18  34.486 

71.8 

+  3.1096—  .0052 

+  .OIO 

—  .0008   o 

.16     .62    .29 

6018 

L  9457 

5-9 

18  36.818 

89.6 

+  3.3838-  .0465 

+•037 

—  .0007   o 

.20    I.O2    .28 

6019 

Pi  70 

6.9 

18  48.014 

80.9 

+  3.  1652-  .0132 

+  .OII 

—  .0052   o 

.12     .57    .21 

6020 

Br  3109 

6.9 

18  52.478 

65.8 

+  2.9414+.  0164 

+  .014 

+  .0180+  I 

.09     .34    .18 

6021 

Br  3112  m 

7-i 

19  35.030 

67.0 

+  2-7I50+.0345 

+  •034 

+  .0035   o 

•13     -70    -33 

6022 

L  9463 

5-8 

19  37-337 

81-3 

+  3.4489-  .0577 

+  .051 

+  .0103—  I 

.14     .69    .24 

6023 

Br  3111 

5-7 

19  57.029 

73-9 

+  2-9285  +  .oi62 

+  .014 

+  .0004   o 

.10   .32   .15 

6024 

v  Pegasi 

4.6 

20  23.234 

78.8 

+  2.9892  +  .OH4 

+  .OI2 

+  .0137+  I 

.05     .21    .08 

6025 

Br3iis 

5-2 

20  23.606 

80.9 

+  2.  6466  +.03  94 

+  •043 

+  .0017   o 

.05     .26    .09 

6026 

Br3ii3 

4-5 

20  47.642 

66.0 

+  3.  1562-.  0124 

+  .OII 

—  .0043   o 

.10   .32   .17 

6027 

L  9470 

5-7 

21  0.859 

86.1 

+  3-3770-  .0478 

+.039 

+  .0014—  I 

•14   -75   -23 

6028 

Pi  82 

6.9 

21  19.198 

77-9 

+  3.1670—  .0132 

+  .OII 

+  .0026   o 

.10   .46   .18 

6029 

L  9474 

5-7 

21  32.882 

86.6 

+  3.4493—  .0616 

+•057 

+  .0051-  I 

.18   .87  .27 

6030 

L  9476 

6.6 

21  36-357 

89.4 

+3.3467-.  0428 

+•034 

+  .OO2O    O 

•IS   -75   -22 

6031 

K  Piscium 

5-o 

21  48.367 

74-7 

+  3-0753  +  -0001 

+  .009 

+  .0057   o 

.03   .20   .08 

6032 

Br  3121 

7-i 

22   2.544 

75-7 

+  2.4693  +  .0494 

+  .072 

+.0068+  I 

.IO     .56    .21 

6033 

Br  3117 

6-5 

22   7.425 

73-9 

+  3.0730  .0000 

+  .009 

+  .0029   o 

.09     .30    .14 

6034 

Br  3118 

5-8 

22  18.119 

78.4 

+  2.8808  +  .0234 

+  .019 

+.0080+  I 

.10   .32   .14 

6035 

L  9485 

6.6 

22  38.740 

86.7 

+3.2308—  .0240 

+  .018 

+  .0003   o 

.10   .57   .17 

6036 

Br  3119 

6.2 

22  42.209 

56.8 

+  2.9749+.  0125 

+  .OI2 

+  .0018   o 

•15   -57   -34 

6037 

6  Piscium 

4-5 

22  53.700 

72.4 

+  3.0415  +  .0028 

+  .009 

—  .0088   o 

.05   .24   .10 

6038 

Br  3125 

5-8 

23   2.841 

66.3 

+  2.5i36+.o5io 

+  •073 

+  .0247+  6 

.09   .40   .20 

6039 

L  9483 

5-8 

23  13.661 

86.3 

+  3.5080—  .0768 

+  .082 

+  .0044—  I 

.15   .78   .24 

6040 

Br  3122 

4-7 

24  5.796 

84.7 

+  3.0310+.  0061 

+  .OIO 

+  .0038   o 

.04   .32   .09 

6041 

Br  3123 

6.9 

24  19.026 

72-7 

+  3.0796—  .0014 

+  .009 

—  .0012   o 

.09   .34   .16 

6042 

Pi  96 

6-5 

24  21.886 

79-4 

+  3.1022—  .0028 

+  .009 

+  .0115   o 

.07   .39   .14 

6043 

Br  3124 

7.0 

24  22.594 

73-4 

+  3.0766—  .0009 

+  .009 

—  .0015   o 

•13   -39   -19 

6044 

Br3i3i 

6.9 

25  1-999 

70.4 

+  2.3275  +  .os58 

+  .104 

-.0037-  I 

•ii   -57   -25 

6045 

L  9499 

7-8 

25  23.850 

88.2 

+  3.1685—  .0146 

+  .OI2 

+  .0035   o 

.14   1.05   .27 

6046 

Pi  101 

5-° 

25  24-745 

65.8 

+  2.7539+.0375 

+  .038 

+  .0031   o 

.10     .39    .20 

6047 

L  9502 

6-3 

26  0.857 

83-4 

+  3-2739-  -°34° 

+  .025 

+  .OOII    O 

.15     .87    .28 

6048 

Pi  103 

6.8 

26  21.573 

80.5 

+  3.0996—  .0024 

+  .009 

+  .0114   o 

.09    .60   .20 

6049 

Br  3128 

5-3 

26  22.232 

67.2 

+  2-94OO+.O2I7 

+  .017 

+  .O24I+  2 

.08    .28   .14 

6050 

Br  3126 

6-5 

23  26  27.519 

81.6 

+  3.1508—  .0125 

+  .OII 

.0000   o 

.12     .50    .l8 

6009/8718.    9M  o'.'6  87°,  fixed. 


6010  Hussey.     sfj-jfo  o'/4  84°. 


CATALOGUE  OF  6188   STARS  FOR   1900 


243 


No. 

Decl.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3dt 

H/andiooA(i' 

Prob.  Errors. 
S  Ep.    100  |i'  S  10 

Remarks. 

6001 

0           /               // 

+  48    4  36.42 

56.2 

//                      // 

+  i9-7i6+.o7i 

// 

-•13 

// 

+  .057       o 

.12         .37      .23 

ii  Andromedae 

6002 

+  47  49  58.23 

70.8 

+  19.693  +  .072 

—  .12 

+  .031+    i 

.09         .37      .I? 

6003 

+  41  31  49.74 

73-5 

+  ig.672  +  .o72 

-•13 

+  .008       o 

.09         .32      .15 

10  Andromedae 

6004 

+  45°    7-42 

56.0 

+  19.  603  +  .078 

-.16 

-  .063       o 

.12         .46     .28 

7  Piscium  b 

6005 

+  23  ii  34.26 

80.4 

+  19.652  +  .  075 

-•15 

—  .021      o 

.04        .26      .09 

6006 

+  2952    8.97 

63-5 

+  19.610+.  074 

-.14 

—  .067       o 

.13        .44     .24 

63  Pegasi 

6007 

-2732    4.19 

85-5 

+  19.63  1  +  .08  1 

-.19 

—  .046      o 

.10      .53    .16 

ii  G  Sculptoris 

6008 

+  37  38  10.23 

66.3 

+  19.602  +  .  072 

-.14 

—  .078       o 

.11         .46      .23 

12  Andromedae 

6009 

+  31  15  51.70 

72.4 

+  i9.675  +  .o7i 

-.14 

—  .021      o 

.09        .39      .17 

64  Pegasi  * 

6010 

-IS  35  i7-6o 

72.8 

+  I9-723  +  .077 

-.18 

+  .O2  1         O 

.07         .37      .16 

97  Aquarii  * 

60  1  1 

+  20  16  49.97 

64.1 

+  19.  692  +  .072 

"•IS 

—  .014      o 

.13        .44     .24 

65  Pegasi 

6012 

-203847.34 

72.1 

+  19.614+.  076 

-.18 

-  .093       o 

.08        .42      .18 

98  Aquarii  b1 

6013 

+  20     038.38 

7°-5 

+  19.689  +.O7  2 

-•IS 

—  .019+  I 

.09        .43      .19 

53007.     ioM6"82° 

6014 

—  II    19  12.69 

81.1 

+  19.956+.  076 

-•17 

+.248+  I 

.08        .65     .20 

6015 

+  11  45  56.08 

74-2 

+  19.693  +.07  2 

-.16 

—  .019      o 

.09        .35      .16 

66  Pegasi 

6016 

+  5935    6.ii 

67.4 

+  19.  709+.  062 

—  .11 

-.003      o 

.10      .38    .19 

6017 

-   9    030-51 

63.0 

+  I9-7IO+.073 

-•17 

—  .010      o 

.12         .42      .23 

2  3008.  8M  4"  240°,  rel.  mot. 

6018 

-52  26  21.15 

82.7 

+  19.  690+.  080 

—  .22 

-.031      o 

.14        .67      .23 

1  06  G  Gruis 

6019 

—  22    19   16.85 

81.1 

+  19.648  +  .074 

-.18 

—  .076      o 

.11         .55      .19 

233  G  Aquarii 

6020 

+  31   5853.16 

62.4 

+  19.  768+.  069 

—  .14 

+  .043      o 

.08        .36     .19 

6021 

+  5659  11.24- 

64.8 

+  19.737  +  .  061 

—  .11 

+  .OOI         0 

.11         .51      .26 

OS  495.    7?8-8?o  o'/3  128° 

6022 

-57  23  52-87 

80.3 

+  19.  708+.  080 

-•23 

—  .029       o 

.11         .57      .20 

29  G  Tucanae 

6023 

+  31  50    7.67 

70-3 

+  19.  741  +  .066 

-•IS 

—  .001       o 

.09        .31      .15 

67  Pegasi 

6024 

+  22  51   12.33 

73-8 

+  19.776+.  067 

"•IS 

+  .028       o 

.04        .21      .09 

6025 

+  61  44    1.50 

76-5 

+  19.740+.  058 

—  .11 

—  .008      o 

.04        .18     .08 

4  Cassiopeia 

6026 

—  21    II   24.65 

72-4 

+  19.  696+.  070 

-.18 

-  .058       o 

.10      .33    .16 

99  Aquarii  W 

6027 

-53  1630.75 

84.6 

+  19.875  +  .075 

—  .22 

+  .117      o 

.11         .65      .20 

107  G  Gruis  o 

6028 

—  22   17   27.18 

83.8 

+  19.765  +  .069 

-.18 

+  .003      o 

.09         .45      .15 

236  G  Aquarii  * 

6029 

-59    I4I-74 

82.2 

+  19.847  +  .076 

—  .24 

+  .082       o 

.14         .67      .23 

32  G  Tucanae 

6030 

—  50  42  27.98 

85-7 

+  I9-753  +  -Q73 

—  .21 

—  .013       o 

.12         .54     .18 

i  G  Phcenicis 

6031 

+  o  42  29.14 

74-4 

+  19.679+.  066 

-•17 

—  .090      o 

.03         .18      .07 

6032 

+  70    8    5.07 

70-7 

+  19.812  +  .  051 

-.08 

+  .040      o 

.IO        .40     .18 

£386.       I2M20"3I30 

6033 

+  o  34  23.53 

72.0 

+  19.741  +  .065 

-•17 

-  -033       o 

.08        .29     .14 

9  Piscium 

6034 

+  42   21  40.42 

69.6 

+  19.  790+.  060 

-.14 

+  .014      o 

.09        .27      .14 

13  Andromedae 

6035 

-36      542.81 

84-3 

+  19.771  +  .068 

-.19 

—  .010      o 

.11         .57      .18 

13  G  Sculptoris 

6036 

+  2437      3.80 

55-2 

+  I9-735  +  -°62 

-•IS 

-  .047       o 

-14      -57    -34 

69  Pegasi 

6037 

+   5  49  46.58 

69.8 

+  19.742  +  .063 

-.16 

-  .043      o 

.04         .21      .10 

6038 

+  694834.54 

65-9 

+  19.786  +.05  1 

-.09 

—  .001+    I 

.07         .30      .15 

6039 

-63  39  40.14 

86.4 

+  19.789+.  073 

-.24 

.000      o 

.12         .71      .21 

33  G  Tucanae 

6040 

+  12   12  31.52 

81.2 

+  19.828+.  061 

-.16 

+  .027       o 

.05         .27      .09 

70  Pegasi  q 

6041 

—     2  2O  3O.I2 

7i-3 

+  19.785  +  .061 

-•17' 

—  .019      o 

.09         .34      .16 

ii  Piscium 

6042 

-   5    438-93 

78.4 

+  19.579+.  062 

-•17 

—  .226      o 

.06         -37      .13 

6043 

-   i  35    9-49 

71.0 

+  19.788+.  061 

-•i7 

—  .017       o 

.11         .35      .18 

12  Piscium 

6044 

+  74  40  27.81 

68.7 

+  19.799+.  043 

-.07 

—  .015       o 

.11        .44     .21 

6045 

-244455.00 

87-7 

+  19.841  +  .061 

-.18 

+  .O22         O 

.13      1.  12      .28 

6046 

+  57  595I-52 

52-5 

+  19.832  +  .  052 

—  .12 

+  .013      o 

.08        .34     .21 

02496.   iiMi"343° 

6047 

-45  23  41-05 

83.0 

+  19.812  +  .  062 

—  .21 

—  .015      o 

.12         .80      .25 

5  G  Phcenicis 

6048 

-  438    1.86 

80.0 

+  19.651  +  .058 

-•17 

-.179      o 

.08         .50      .17 

6049 

+  38  41  12.42 

65-3 

+  19.749+.  055 

-.14 

—  .082      o 

.07         .26      .13 

14  Andromedae 

6050 

-2i  55  17.24 

78-3 

+  19.830+.  058 

-.18 

-.003      o 

.12        .43      .18 

100  Aquarii  (6s) 

6028  See. 


244 


PRELIMINARY  GENERAL   CATALOGUE   OF   STARS   FOR    1 900 


Ho. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3it 

(i  and  100  A  p 

Prob.  Errors. 
aEp.     loop    aio 

M 

h    m         t 

S                         8 

s 

s 

n                 n             it 

6051 

Br  3129 

6-7 

23  26  49.692 

61.3 

+  3.0777-.  0008 

+  .009 

—  .OOOI          0 

.14            .39         .24 

6052 

L  9494 

6.0 

26  52.129 

89.9 

+  3-9765—  -2200 

+.496 

+  .0032—     I 

.13            .98         .24 

6053 

Groomb  4084 

8-5 

27    11.002 

75-3 

+  2.895I  +  .0247 

+  .O2O 

+  .0023       o 

.16            .75         .31 

6054 

ft  Sculptoris 

4.6 

27  36.642 

82.9 

+  3.2291—  .0258 

+  .019 

+  .0077—     I 

.08            .40         .14 

6055 

L95°5 

8.4 

27  43-888 

87.5 

+3.7488-.  1516 

+  .264 

+  .0098-   3 

.15            .78         .23 

6056 

Br  3147 

5-9 

27  48.78- 

79-9 

-0.133-  -.566- 

+  .095-+  157 

.04            .21         .07 

6057 

Br  3130 

4-7 

28    2.683 

68.6 

+  3-  1449-  .0121 

+  .OI2 

—  .0005       o 

.07            .33          .16 

6058 

Br  3132 

5-8 

28  27.498 

59-3 

+  2-9979+.OH5 

+  .OII 

—  .0006       o 

.10        .44      .24 

6059 

Br  3134  w 

5-2 

28  59.429 

83-3 

+  2.  9690+.  Ol66 

+  .014 

+  .0040      o 

.06            .44         .13 

6060 

Br  3133 

6.2 

29    0.517 

73-7 

+3.0851—  .0008 

+  .009 

+  .0071       o 

.09            .32         .14 

6061 

Br  3136 

5-9 

29  41.487 

62.4 

+  2.9580+.  0180 

+  .015 

—  .OOOI         O 

.20            .62         .35 

6062 

i  Phoenicis 

4.8 

29  41.827 

78.6 

+3.2399-  .0307 

+  .023 

+  .0023      o 

.11             .54         .20 

6063 

Br3i37 

5-8 

29  43-92S 

70.8 

+  2-9252  +  .O224 

+  .OI8 

—  .OOII          0 

.10        .42       .19 

6064 

Br  3138 

6.8 

30  21.838 

77-4 

+  3.  0669  +.OOO6 

+  .009 

-.0031       o 

.11             .32          .15 

6065 

Pi  126 

6.7 

30  22.557 

84.0 

+  3.0960—  .OO4O 

+  .OIO 

—  .0006       o 

.07            .44         .13 

6066 

Pi  130 

6.8 

3°  54-554 

82.0 

+  3-I577-.°l6o 

+  .014 

—  .0024       o 

.12           .64        .22 

6067 

Br  3139 

5-9 

31  17.091 

72.8 

+  3.  0603  +  .001  1 

+  .OIO 

-  -0075       o 

.08           .28         .14 

6068 

L9S3S 

4-9 

32  28.084 

85.6 

+3-2447-  -0339 

+  .026 

+  .0062—    I 

.13           .8l         .24 

6069 

Pi  133 

6.0 

32  28.486 

66.6 

+3.1129—  .0070 

+  .011 

+  .0018       o 

.10        .51       .24 

6070 

Br  3141 

6.4 

32  35-731 

58.6 

+3.0341  +  .0088 

+  .011 

+  .0083       o 

.16           .54        .32 

6071 

A.  Andromedae 

3-8 

32  40.034 

72.4 

+  2-923I  +  .O282 

+  .023 

+  .0149+     2 

.04           .16        .07 

6072 

Br  3142 

5-6 

32  S3-796 

70.7 

+  3.  02  5  1  +  .0096 

+  .OII 

+  -0035     ° 

.10           .45         .20 

6073 

t  Andromedae 

4-3 

33  J3-775 

78.3 

+  2.9309+.  0253 

+  .021 

+  .0024       o 

.04           .21         .08 

6074 

L-9543 

6.7 

34    5-907 

73-4 

+3.2373-.  0351 

+  .028 

+  .OO22          O 

•H       -57      -25 

6075 

Br  3146 

5-4 

34  17-455 

78.7 

+  2.8933  +  .03i6 

+  .027 

—  .0013      o 

.10        .32      .14 

6076 

Br  3145 

5-2 

34  35-9I5 

69.7 

+  3.  1152-  .0076 

+  .OII 

+  .0039      o 

.12           .40         .20 

6077 

i  Piscium 

4.2 

34  48.387 

71.0 

+  3-o84i  +  .oo32 

+  .OIO 

+  .0248      o 

.03           .15         .06 

6078 

y  Cephei 

3-4 

35  I4-436 

64.8 

+  2.4266+.0753 

+.169 

—  .0179—  10 

.03            .13         .06 

6079 

/*  Sculptoris 

5-5 

35  23-379 

83-9 

+  3.  1558-  .0196 

+.016 

—  .0082       o 

.11            .69        .21 

6080 

<c  Andromedae 

4-3 

35  28.821 

76.1 

+  2.9429+.  0266 

+  .022 

+  .0073+  I 

.04            .22          .09 

6081 

Pi  iS3 

6-3 

35  58-396 

69.0 

+3.1069—  .0061 

+  .OIO 

+  .0042       o 

.08            .52         .23 

6082 

Br  3150 

5-8 

36  23.350 

72.5 

+  3.  1156-  .0098 

+  .012 

—  .0029       o 

.11             .38         .18 

6083 

Br  3151 

S-o 

36  34-38i 

71.6 

+  3.1188—  .0096 

+  .012 

+  .OOI2         O 

.12            .42         .20 

6084 

A,  Piscium 

4-7 

36  56.618 

70.2 

+  3.  0603  +.OO  1  2 

+  .OIO 

—  .0092       o 

.07            .30         .14 

6085 

Paris  34102 

5-7 

37  I7-043 

92.1 

+  3.1117—  .0082 

+  .OII 

+  .0014       o 

.11            .64         .l6 

6086 

Groomb  4128 

6-7 

37  19-156 

64-5 

+  2-94i6+.0273 

+  .023 

—  .0013       o 

.18        .68      .36 

6087 

Br  3154 

4-7 

37  32-216 

82.1 

+  3.1136-  .0077 

+  .OII 

+  .0060      o 

•°5        -33      -io 

6088 

Br  3156 

6-7 

37  39-i8i 

77-5 

+  3-04i4+.oo88 

+  .OII 

+  .0058       o 

.10        .45      .18 

6089 

Br  3157 

5-5 

38  16.928 

60.4 

+  3-0505  +  -0057 

+  .OIO 

—  .OOOI         O 

.14        .50      .28 

6090 

L  9560 

5-9 

38  36.166 

86.3 

+  3-7526-  .2276 

+.589 

+  .0179—   8 

.11        .92      .24 

6091 

R  Aquarii 

Var. 

38  38-776 

82.2 

+  3.1074—  .0080 

+  .OII 

—  .0002       o 

.12           .60        .20 

6092 

L  9S7i 

5-9 

38  41.520 

81.2 

+  3-3385-  -0741 

+.087 

+  .0006       o 

.15           .78        .27 

6093 

L  9566 

6-3 

38  42-231 

87.6 

+  3.4818—  .1092 

+.158 

+  .0484—  14 

.15            .80        .23 

6094 

Br  3160 

5-i 

38  57-578 

73-3 

+  3.0104+.  0164 

+  .014 

+  .0054       o 

.09           .39         .16 

6095 

Br  3159 

5-4 

39   0-927 

78.2 

+  3.1160—  .0098 

+  .012 

+  .OO2O          0 

•°7        -33      -13 

6096 

Pi  169 

8.0 

39  32-952 

88.8 

+  3.0901—  .0041 

+  .OIO 

—  .OOII          0 

.16        .75      .23 

6097 

Pi  i7S 

6.7 

39  55-722 

67.8 

+  2.  9069+.  0390 

+.036 

+  .0030       o 

.15        .50      .26 

6098 

L  9582 

6.8 

40  44-7°4 

83.0 

+  3-I759--°266 

+  .O2I 

+  .0070—    I 

.12            .64         .2.1 

6099 

Br  3161 

5-6 

40  49.264 

66.9 

+  3.1195—  .0100 

+  .012 

+  .0082       o 

.13            .48         .24 

6100 

Pi  179 

8.2 

23  40  52-759 

72.8 

+  3.  07  1  9  +  .0006 

+  .010 

—  .0010       o 

•18        -75      -33 

6059  ft  720.     6fo-6fo  o'/4  165°,  binary. 


6074  Dunlop.     7*C6  4"  272°. 


6087  /3  279.     IIM  5"  85' 


CATALOGUE   OF   6 1 88   STARS   FOR    1900 


245 


No. 

Decl.  i  goo 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(t'and  100  A  \L' 

Prob.  Errors. 
SEp.  100  H.'  Sio 

Remarks. 

6051 

e         /            // 
-      I    38    17-59 

63-9 

//          it 

+  19.860+.  056 

-•i? 

it 

+  .023       o 

//         //       /* 

.11         .38      .21 

13  Piscium 

6052 

-77  56  15-52 

86.8 

+  19.833  +  .075 

-•35 

—  .005       o 

.11         .73      .20 

83  G  Octantis 

6053 

+  43  16  14.76 

65.6 

+  19.843  +  .052 

-.14 

+  .001       o 

.13         .61      .30 

53024.    9"S5"3°9° 

6054 

-38  22  16.78 

81.1 

+  19.858+.  058 

-.19 

+  .011          0 

.08         .43      .15 

6055 

-74  17  18.38 

88.1 

+  19.823  +  .068 

-.29 

—  .025       o 

.12         .67      .19 

6056 

+  86  45  20.98 

83-3 

+  19.868—  .009 

+  .OI8+     2 

.04         .21      .07 

39  H  Cephei 

6057 

-21  28      I.8l 

73-4 

+  19.869+.  055 

-.18 

+  .017       o 

.09         .35      .16 

101  Aquarii  (6s  or  ft4) 

6058 

+  21  56  47.88 

60.5 

+  I9.822  +  .O52 

-•15 

-  -°35      o 

.08         .35      .19 

71  Pegasi 

6059 

+  30  46  23.92 

78.1 

+  19.852  +  .050 

-•15 

—  .012         O 

.06         .33      .12 

72  Pegasi  * 

6060 

-    i  47  59.45 

74.2 

+  19.855  +.052 

-•17 

—  .009      o 

.08         .32      .14 

14  Piscium 

6061 

+  32  56  38-58 

57-i 

+  19.901  +  .048 

-•15 

+  .029      o 

•IS      -57    -34 

73  Pegasi 

6062 

-43  10    5.19 

75-8 

+  19.863+.  054 

—  .20 

—  .009       o 

.09      .44    .17 

6063 

+  3941    6.14 

61.8 

+  19.832  +  .  048 

-.14 

—  .040      o 

.10     .34    .19 

15  Andromedas 

6064 

+  o  45  38.61 

74.6 

+  19.  858  +  .049 

--I7 

—  .022          0 

.11      .32    .16 

15  Piscium 

6065 

-   8    i    4.68 

82.1 

+  19.  900+.  050 

--I7 

+  .O2O         O 

-07      -45    -15 

6066 

-27  2546.48 

84.8 

+  19.895  +  .050 

-.18 

+  .009      o 

.11      .64    .20 

20  G  Sculptoris 

6067 

+   i  32  50.00 

72.7 

+  19.948  +.047 

-•i? 

+  .058      o 

.07      .28    .13 

16  Piscium 

6068 

—  46      2  44.81 

84-3 

+  19.878  +.048 

—  .20 

—  .024      o 

.11      .65    .20 

ii  G  Phoenicia 

6069 

-133652.56 

67.2 

+  19.926  +.046 

-•17 

+  .024      o 

.08      .40    .19 

W.H.     nM33"93° 

6070 

+  16  16  19.00 

55-8 

+  19.902  +  .044 

-.16 

—  .002      o 

-13      -54    -32 

74  Pegasi 

6071 

+  45  54  58.78 

70.1 

+  19.483  +.042 

-.14 

—  .421       o 

.04      .16    .07 

6072 

+  17  5047.33 

68.7 

+  19.925  +  .044 

-.16 

+  .018       o 

.10      .42    .20 

75  Pegasi 

6073 

+  42  42  51.74 

75-2 

+  19.907  +  .041 

-.14 

-.003       o 

.04      .19    .08 

6074 

-47  "  34-54 

72.6 

+  19.946+.  045 

—  .20 

+  .027       o 

.11         .49      .21 

12  G  Phoenicis  (ff)  * 

6075 

+  4955    4.02 

72.1 

+  I9.9I2  +  .039 

-.14 

—  .009       o 

.09        .27      .14 

18  Andromeda; 

6076 

-  14  46  30.24 

68.7 

+  19.  876+.  042 

-•17 

—  .048      o 

.10      .35    .18 

102  Aquarii  w1 

6077 

+  55    3-og 

68.8 

+  19.487  +  .041 

"•I? 

-•439      ° 

.03        .15      .07 

6078 

+  77    4  27.30 

66.3 

+  20.088  +  .029 

-.09 

+  .158      o 

.02         .11      .05 

6079 

-3237  33-34 

82.8 

+  19.893  +  .041 

-.18 

-  .038      o 

.10      .59    .19 

6080 

+  43  46  48.45 

70.6 

+  19.908  +  .03  7 

-•15 

—  .024      o 

.05        .22      .IO 

6081 

-12  14    7.27 

71.4 

+  19.939+.  039 

-•17 

+  .002      o 

.07         .45      .19 

6082 

-183447.18 

75-o 

+  19.871  +  .038 

-•17 

—  .069      o 

•09     -35    -iS 

103  Aquarii  A1 

6083 

—  l8  22  16.43 

69.0 

+  19.949+.  038 

-•17 

+  .007      o 

.10      .37    .18 

104  Aquarii  A2 

6084 

+    I   13  46.87 

66.2 

+  19.801  +  .036 

-•17 

-.144      o 

.06         .23      .12 

6085 

—  16    o    8.12 

90.2 

+  19.940+.  036 

-•17 

—  .008      o 

•13      -73    -J9 

Edin«,  3532 

6086 

+  44  26  14.92 

61-3 

+  19.930+.  034 

-•15 

—  .019      o 

.14     .52    .29 

6087 

-15    552.28 

81.2 

+  19.891  +  .036 

-•17 

—  .060      o 

.06     .34    .11 

105  Aquarii  <o2* 

6088 

+  15  46  50.02 

73-8 

+  19.960+.  035 

-.16 

+  .008       o 

.09     .36    .16 

76  Pegasi 

6089 

+  9  46  34.24 

57-3 

+  19.964+.  034 

-.16 

+  .007       o 

.12         .44      .26 

77  Pegasi 

6090 

—  79  20  48.70 

86.6 

+  19.916+.  043 

-•3° 

—  .044       o 

.OQ         .85      .22 

85  G  Octantis 

6091 

-IS  50  18.94 

79-2 

+  19.954+.  034 

-•17 

—  .006      o 

.13         .71      .26 

Pulk.,3485.   6M  to  IIM 

6092 

-6457  37-69 

81.2 

+  19.986  +.03  7 

—  .21 

+  .026       o 

.13         .71      .24 

36  G  Tucanae 

6093 

-71      249.36 

86.9 

+  20.025  +  .040 

-•23 

+.065+  I 

.12         .73      .21 

35  G  Tucanae 

6094 

+  28  48  27.14 

70.6 

+  19.926+.  032 

-.16 

—  .036      o 

.08         .32      .15 

78  Pegasi  * 

6095 

-184955.18 

79.6 

+  19.963  +  .033 

-•17 

.000      o 

.07         .33      .12 

1  06  Aquarii  i1 

6096 

-   9    i    3-66 

85.6 

+  19.953  +  .032 

-•17 

—  .014      o 

.14         .59      .20 

6097 

+  55  1439-95 

61.3 

+  I9-957  +  -Q29 

-.14 

-.013      o 

•H      -43    -25 

6098 

-4044  13.67 

80.2 

+  19.935  +  .030 

-.18 

—  .041       o 

.12         .60     .22 

17  G  Phcenicis 

6099 

-19  M    3-i3 

65-3 

+  2O.OI2  +  .O3O 

-•17 

+  .035      o 

.12         .39      .21 

107  Aquarii  (i2)* 

6100 

—  o  17  30.26 

65-3 

+  I9-942  +  .029 

-•17 

-  -°35      ° 

.13         .46      .24 

2,  3036.     n"  2  "5  230° 

6094  Clark.     8Mi'.'4i98°. 


6099  W.  H.     7*3  6"  138°. 


246 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


Ho. 

Designation. 

Mag. 

R.  A.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

H  and  100  A  p 

Prob.  Errors. 
aEp.     loop,     aio 

M 

h    m         8 

8                     S 

s 

s 

//             //          // 

6101 

^  Andromeda 

5-i 

23  41      4.608 

69.1 

+  2-9599+.  0293 

+  .024 

+  .0012       o 

.08         .26       .13 

6102 

Br  3162 

5-6 

41   16.863 

59-8 

+  3.0634+.  0023 

+    .010 

-  .0034       o 

•09        -33      -19 

6103 

or  Phoenicis 

5-4 

4i  57-594 

83-2 

+  3-  1989-  .0387 

+  .034 

—    .0022          0 

.14        .82      .26 

6104 

Pi  185 

6.0 

42    6.921 

7i-3 

+  3.09I2-.  0058 

+  .010 

—  .0042       o 

.09        .57      .24 

6105 

Lai  46607 

5-7 

42    8.491 

91.8 

+  2.9I45  +  .04I9 

+  .040 

+  .0017       o 

.10        .78      .17 

6106 

T  Cassiopeiae 

$-0 

42    9.928 

60.8 

+  2.9139+.  0438 

+  .042 

+    .0084+     I 

.09        .32       .18 

6107 

Br  3165 

5-8 

42  48.097 

67.2 

+  3.0844—  .0008 

+  .010 

+  .0063       o 

.06        .26      .13 

6108 

Br  3166 

5-i 

43    7-546 

78.7 

+  2.8398  +  .  0613 

+  .079 

+  .0019      o 

.05        .30      .11 

6109 

Pi  190 

6.6 

43  24-145 

74-9 

+  3.0840—  .0027 

+  .010 

—    .0001          0 

.10        .44      .18 

6110 

8  Sculptoris 

4-7 

43  43-099 

75-6 

+  3.1322—  .0160 

+  .014 

+  .0080       o 

.04        .28      .10 

6111 

Br  3169 

5-7 

43  57-734 

69.2 

+  2.8978  +  .0500 

+  -053 

—  .0013       o 

.10        .38      .18 

6112 

Br  3170 

6.7 

44  16.976 

73-o 

+  2.9303  +  .0450 

+  .044 

+  .0069+   I 

.12            .45         .21 

6113 

Br  3167 

6.1 

44  20.226 

71.0 

+  3.0711  +  .  OOI2 

+    .010 

—  .0004       o 

.07            .30        .14 

6114 

Br3i7i 

6.2 

44  35-647 

76.1 

+  3.o294+.oi66 

+  .014 

+  .0054       o 

.08           .39         .16 

6115 

Pi  202 

8.1 

44  59-595 

78.8 

+  2.  9078  +  .0504 

+  -053 

—  .0024       o 

.16           .63         .26 

6116 

Pi  200 

6-3 

45    5-IO° 

80.4 

+  3.0971—  .0046 

+   .010 

+  .0086       o 

.07            .52         .17 

6117 

Pi  204 

6.8 

45  22.431 

71.2 

+  2.9797  +  .0357 

+  .030 

+    .OI29+     2 

.10        .57      .24 

6118 

Pi  203 

6.0 

45  23-791 

73-6 

+  3.  0965  -.007  1 

+    .Oil 

+  .0014      o 

.12            .57          .24 

6119 

Br  3172 

54 

46  11.495 

81.1 

+  3.1018—  .0097 

+  .012 

+    .0010          0 

.09            .42          .15 

6120 

y1  Octantis 

5-2 

46  14-584 

71.6 

+  3.6613-.  3156 

+  I.2OO 

—  .0262  +  20 

.06            .34         .14 

6121 

Br  3173 

6-3 

46  14.980 

60.  i 

+  3.0583  +  .0056 

+    .OIO 

—  .0017       o 

.15            .46         .28 

6122 

L  9620 

6.9 

46  26.947 

88.6 

+  3-I333--02°8 

+    .017 

+  .0052       o 

.13            .98         .24 

6123 

Br  3174 

6.0 

46  50.669 

65.0 

+  3.0702  +  .0024 

+   .OIO 

+    .OOIO         0 

.09            .42          .21 

6124 

Br  3181 

6.8 

47    9-263 

72.8 

+  2.8255  +  .IIO2 

+  .230 

+  .0786+34 

.08            .48         .20 

6125 

Br  3175 

6.4 

47  18.724 

64.0 

+  3-0402  +  .OI24 

+  .012 

—  .0036       o 

.11             .51          .26 

6126 

Pi  210 

6-3 

47  21.784 

69.4 

+  3.0854—  .0068 

+  .on 

—  .0064       o 

•15        -63      -3° 

6127 

<t>  Pegasi 

S-S 

47  23.962 

87.0 

+  3.0466+.  ono 

+  .on 

—    .OOI  I         O 

.04      .36     .09 

6128 

Br  3177 

5-5 

47  3*-°3° 

82.6 

+3.0568  +.0066 

+  .010 

—  .0022       o 

.12            .40         .l6 

6129 

Pi  218 

6.7 

47  31-863 

83-4 

+  2.8859+.  0989 

+  -I75 

+  .0845+30 

.08            .51          .l6 

6130 

Br3i78 

7.0 

47  35-227 

87.4 

+3.0430+.  0125 

+    .012 

—  .0013       o 

.13            .46         .17 

6131 

Paris  34389 

6.0 

47  41.800 

98.0 

+3.087  1  -.0039 

+    .OIO 

+  .0027      o 

.12         I.  O2         .17 

6132 

Br  3179 

6-3 

47  47-356 

77-9 

+  3.0817—  .0008 

+    .OIO 

+  .0047       o 

.09           .40        .16 

6i33 

Br  3180 

6-5 

47  57-423 

66.5 

+  3.  07  1  3  +  .0020 

+    .OIO 

+  .0008       o 

.11             .40         .21 

6i34 

Pi   222 

6-5 

48  10.639 

86.6 

+3.  1074-  .0129 

+  .013 

+  .0032      o 

.11            .70         .20 

•6i35 

p  Cassiopeiae 

4.9 

49  23.085 

81.8 

+2.9767  +.0443 

+  .042 

—  .0006      o 

.05        .30      .10 

6136 

L  9640 

6.2 

49  24.040 

89.1 

+  3-I577~  -0260 

+  .021 

+  -0319-   3 

.l6            .84         .24 

6i37 

Pi  227 

6.2 

49  39-491 

77-2 

+  3.0690+.  ooio 

+    .OIO 

—  .0038       o 

.09            .44         .17 

6138 

Groomb  4163 

6.9 

49  57-58i 

74-9 

+  2.  8674  +.0907 

+  .160 

—  .0028—    I 

.05            .44         .16 

6139 

Br  3183 

6.3 

50    0.776 

69.8 

+3.  0664  +.0047 

+    .OIO 

+  .0007      o 

.09            .28         .15 

6140 

L  9643 

6-3 

50    6.387 

85.0 

+3.  1095-.  0182 

+  .016 

+  .0004      o 

.11             .78         .23 

6141 

Pi  231 

7.0 

5029.911 

65.0 

+  3.oo82  +  .O382 

+  -032 

+  .0072+  I 

.15            .54         .28 

6142 

Br  3184 

6.2 

50  32.796 

68.2 

+  2.  9873  +.0445 

+  .042 

—  .0006      o 

.14            .63         .30 

6i43 

L  9652 

7-7 

50  58.188 

85.8 

+  3.0954—  .0112 

+  .013 

+  .0012       o 

.13            .92          .26 

6144 

V  Cephei 

Var. 

5i  45-553 

78.2 

+  2.7297  +  .i8io 

+  .669 

+  .0291  +  22 

.07            .32          .12 

6i45 

Groomb  4172 

6-3 

51  59-I04 

67.6 

+  3-O298  +  .O276 

+  .022 

—  .0003      o 

.16            .70         .34 

6146 

•y2  Octantis 

5-9 

52    3-992 

70.8 

+3.4164—  .2848 

+  I.II2 

—  .0184+14 

.06            .38         .16 

6147 
6148 

1,9658 
Br  3185 

6.0 
5-6 

52    5-i4i 
52    5-969 

83.2 
68.5 

+  3-I743--°625 
+  3.  0049  +.0424 

+    -072 
+   .038 

+    .0094—     2 

—  .0013      o 

.16            .84         .28 
.O8            .40         .19 

6149 

r]  Tucanae 

5-2 

52  20.276 

80.8 

+  3.  1817-.  0667 

+   .080 

+  .0142-   3 

.15        .68      .25 

6150 

^  Pegasi 

4.8 

23  52  39-703 

72.6 

+  3.0497  +  .OI49 

+    -013 

-  .0031      o 

.09        .36      .16 

6111  OS  508.    8M  i'.'7  197°. 


CATALOGUE  OF  6188  STARS  FOR  IQOO 


247 


No. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

(i'and  iooAp' 

Prob.  Errors. 
8  Ep.    loop'  S  10 

Remarks. 

6101 

0           /               // 

+  45  Si  54-20 

62.7 

//                      It 

+  I9-97I  +  .027 

// 

-•IS 

*/ 
—  .018      o 

ft                   II               II 

.08      .24    .14 

6102 

+   2  55  54-9° 

56.9 

+  19.  960+.  028 

-•i? 

—  .020       o 

.08      .30    .18 

19  Piscium 

6103 

-504653-31 

83.2 

+  19.973  +  .028 

-.19 

—  .012      o 

.11         .71      .22 

6104 

—  12   27   SO.Sl 

73-8 

+  19.902  +  .  027 

-•17 

—  .084      o 

.08         .50      .20 

6105 

+565345-22 

95-3 

+  19.971  +  .025 

-.14 

-.015       o 

.09         .75      .14 

6106 

+  58    5  41.46 

58-1 

+  20.042  +  .025 

-.14 

+  .056      o 

.08         .30      .17 

6107 

-   3  19    3-3° 

65.6 

+  19.996+.  025 

-•17 

+  .006      o 

.06         .26      .13 

20  Piscium 

6108 

+  6.7  15  .4-33 

73-3 

+  I9.994+.  022 

-.14 

+  .002          0 

.04        .22      .09 

41  H  Cephei 

6109 

—   6  56    9.00 

76.8 

+  19.  968+.  024 

-•I? 

—  .026      o 

.09        .41      .16 

6110 

—  28  40  59.86 

74-i 

+  19.895  +  .024 

-.18 

—  .101      o 

•05        -32      .13 

6111 

+  61  39  31.06 

59-7 

+  19.994+.  02  1 

-.14 

—  .004      o 

.09        .28      .16 

6  Cassiopeiae  * 

6112 

+  58  24  26.87 

73-3 

+  19.981  +  .O2I 

-.14 

—  .019      o 

.12        .34     .17 

6113 

+  o  31  15.20 

72.4 

+  19.974+.  022 

--I7 

—  .026      o 

.06         .28      .12 

21  Piscium 

6114 

+  28  17    8.25 

73-8 

+  20.O2  1  +  .O2  1 

-.16 

+  .019      o 

•08         .34      .15 

79  Pegasi 

6115 

+  61  39  29.90 

63-9 

+  2O.OO5  +  .OI9 

-.14 

+  .OOI         O 

.15         .50      .28 

6116 

-1031  56.28 

76.9 

+  2O.IOO+.O2I 

-•17 

+  .096      o 

.07         .50      .l8 

6117 

+  5i    3  57-82 

67.6 

+  19.  988+.  019 

-•15 

—  .018      o 

.12         .49      .24 

6118 

-1457  25.36 

78.2 

+  I9.98O+.O2O 

-•17 

—  .026       o 

.12         .56      .22 

6119 

-1927  54.87 

79-8 

+  20.OI8+.  019 

-•17 

+  .008      o 

.09         .40      .15 

108  Aquarii  (**) 

6120 

-82  34  28.48 

72-4 

+  20.003  +  .023 

-.29 

-.008       o 

•05         -33      -H 

6121 

+  84532.21 

61.1 

+  19.953  +  .0l8 

-.16 

—  .058      o 

.12         .43      .24 

80  Pegasi 

6122 

-35  1449-7° 

82.6 

+  i9-987  +  .oi8 

-.18 

—  .025      o 

.13      1.02      .31 

30  G  Sculptoris 

6123 

+    2  22  27.98 

65-3 

+  2O.OOI  +  .OI7 

-•17 

-  .013       o 

.09         .40      .20 

22  Piscium 

6124 

+77    2  44-85 

71.7 

+  19.928+.  015 

—  .12 

—  .087      o 

•08         .33      .15 

6125 

+  21      653.07 

61.9 

+  19.994+.  016 

-.16 

—  .022      o 

.11         .40      .22 

6126 

—  14  48  26.78 

70-5 

+  20.O23  +  .OI6 

-•17 

+  .007      o 

•13       -54    -25 

6127 

+  1833  53-49 

83-4 

+  I9-973  +  -°l6 

-.16 

—  .044      o 

.04         .30      .09 

6128 

+  10  23  27.28 

77-o 

+  20.020  +.016 

-.16 

+  .003       o 

•12         .35      .I? 

82  Pegasi 

6129 

+  7459  i3-i7 

80.  i 

+  20.069  +.015 

-'13 

+  .052      o 

.06         .36      .13 

ft  996.    12"*  6"  71° 

6130 

+  21    II    12.89 

83.0 

+  19.  992  +  .016 

-.16 

-  .025      o 

.12        .40     .16 

83  Pegasi 

6131 

-   933    8.97 

97-o 

+  20.002  +  .016 

-•17 

—  .016      o 

.12         .96      .17 

6132 

-   3  42  38.77 

76.0 

+  I9-973  +  .OI5 

-•17 

-  .045      o 

.08         .34      .14 

24  Piscium 

6133 

+   i  32    4-33 

67.1 

+  20.013  +  .015 

-•17 

—  .006      o 

.10         .39      .20 

25  Piscium 

6i34 

-2447    7.27 

89.6 

+  20.019+.  015 

-.18 

—  .001      o 

.IO         .71      ,l8 

274  G  Aquarii 

6i35 

+  56  5634-98 

73-4 

+  20.030+.  012 

-•15 

+  .005      o 

.06         .26      .11 

6136 

—  40  51  27.26 

84-5 

+  20.047  +  .013 

-.18 

+  .O22         O 

.14         .64      .22 

27  G  Phcenicis 

6i37 

—  o  26  48.79 

79-3 

+  20.02O+.OI2 

-•i? 

—  .006      o 

-09         .40      .15 

6138 

+  73  Si  13-7° 

70.6 

+  2O.O2I  +  .OIO 

-.14 

—  .007       o 

-06         .35      .15 

6i39 

+  63053.88 

69.0 

+  20.018  +  .  on 

-•i? 

—  .010      o 

.09         .29      .15 

26  Piscium 

6140 

-32  2841.43 

81.2 

+  20.029+.  on 

-•i? 

+  .OOI          O 

.12         .73      .24 

35  G  Sculptoris 

6141 

+  52  1042.51 

62.2 

+  20.057  +  .010 

-.16 

+  .027       o 

•13      -45    -25 

6142 

+  56  51  20.16 

62.9 

+  20.027  +  .010 

-•15 

-.003       o 

.12         .43      .24 

6i43 

-22  32  56.36 

86.7 

+  2O.O78  +.009 

-•17 

+  .047       o 

.12         .96      .25 

6144 

+  8238      3.54 

83-1 

+  20.043  +  •°°6 

—  .12 

+  .009       o 

.08         .33      .12 

Br  3187.    6?2  to  7?i 

6i45 

+  42    6    5.48 

61.4 

+  20.023  +  .007 

-.16 

—  .012      o 

•  15      -60    .33 

6146 

-824333.23 

71.1 

+  20.019+.  009 

-•23 

—  .016      o 

.06    .35  .15 

L96si 

6147 

-  63  30  49.98 

82.4 

+  20.054+.  007 

-.19 

+  .019       o 

-13      -75    -24 

42  G  Tucanse 

6148 

+  55    8  57.53 

61.4 

+  20.019+.  °°7 

-•IS 

—  .016      o 

.09      .33    .18 

6149 

—  64  51    12.00 

78-5 

+  19.968  +  .008 

-.19 

-  .068       o 

.12         .55      .21 

6150 

+  2435      7-71 

7i-3 

+  20.000  +.006 

-•17 

-  -037       o 

.07     .32   .14 

i 

248 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


Ho. 

Designation. 

Mag 

R.  A.  1900 

Epoch 

An.  Var.  and 
Sec.  Var. 

3dt 

p  and  100  A  ji 

Prob.  Errors. 
aEp.     I00|i     a  10 

M 

h    m          s 

1                     S 

9 

s 

it             tt          H 

6151 

Pi  242 

7-0 

23  53    2.984 

79-7 

+  3.01  77  +  .0356 

+  .029 

—  .0065—    I 

.11          .48       .18 

6152 

Br  3188 

6.6 

53  "-573 

72.1 

+  3.0895-.  0074 

+  .OII 

+  .0055       o 

.14         -54       -24 

6iS3 

Br  3189 

5-2 

S3  33-205 

66.1 

+  3.07  1  2  -.0007 

+  .OIO 

—  .0038      o 

.06         .27       .13 

6i54 

«•  Phcenicis 

5-2 

53  44.900 

83-8 

+  3.  1  263  -.0400 

+.037 

+  .0051-  I 

.13         .78       .24 

6i55 

v  Cassiopeiae 

5-i 

S3  56-I03 

73-2 

+  3.0228+.  0431 

+.038 

+  .0013       o 

.09         .28       .14 

6156 

•i  Piscium 

4.1 

54  10.544 

74.1 

+  3.0787  +  .0048 

+  .010 

+  .OIOI         O 

.03         .16       .06 

6i57 

L9675 

5-9 

54  I9-5I3 

82.8 

+  3.0900-  .0159 

+.015 

—  .0015       o 

.13         .80       .25 

6158 

Dpt  2861  m 

6.0 

54  23-498 

88.5 

+  3.0455  +  .0207 

+.016 

-.0055      o 

.10        .50      .15 

6i59 

Pi  249 

7-i 

54  32-845 

69.2 

+  3.0782—  .0018 

+  .OIO 

+  .0023       o 

.10       .38      .18 

6160 

c  Tucans 

4.6 

54  43-246 

78.6 

+  3.  1486-  .0693 

+.087 

+  .0067—    2 

.11      .51    .19 

6161 

Br  3194 

7.0 

5446.22- 

69.1 

+  2.657-  +.325.' 

+  .038-  +54 

.08      .32     .15 

6162 

Br  3192 

6.7 

55  16-844 

63-4 

+  3.0622  +  .0163 

+.013 

+  .0035       o 

.16        .66      .35 

6163 

T  Phcenicis 

5-8 

55  56-410 

85-1 

+  3.  0987  -.0338 

+  .030 

—  .0012       o 

.20      i.  06      .33 

6164 

L  9694 

5-6 

56  11-753 

94-7 

+  3.0982-.  0357 

+  .032 

—  .0014      o 

.16      1.  10      .24 

6165 

0  Octantis 

4.9 

56  27.500 

87-3 

+3.1449-.  1407 

+•330 

—  .0215  +  10 

.12            .75         .21 

6166 

Br  3i9S 

5-9 

56  30.701 

65-9 

+  3.  0369  +.0536 

+.054 

+  .0008      o 

.09            .39         .19 

6167 

L  9696 

7-i 

56  33-528 

88.6 

+  3.0929-  .0244 

+  .02  1 

+  .0033       o 

.14            .90         .24 

6168 

Groomb  4199 

6.4 

56  36.860 

61.8 

+  3.0542  +  .  0281 

+  .02  1 

—  .0005      o 

.15            .64         .34 

6169 

Br3i96 

5-2 

56  41-942 

67.0 

+  3-0743-  -0°02 

+  .OIO 

+  .0008      o 

.07             .28         .14 

6170 

£9697 

7-3 

56  47.809 

90.6 

+  3.0830—  .O2l6 

+  .019 

—  .0038      o 

.12            .90         .21 

6171 

Br  3197 

4.6 

56  49.878 

71.6 

+  3.0772-.  00l8 

+  .010 

+  .0027      o 

.05            .26         .11 

6172 

Br  3198  e.g. 

6.0 

56  56-705 

72.1 

+  3.i256+.oi7i 

+  •013 

+  .0622+  3 

6i73 

^  Sculptoris 

5-i 

57  12.396 

81.8 

+  3.0838-  .0158 

+  .015 

+  .0020       o 

.IO            .64         .21 

6174 

Br  3200 

6.6 

57  16.824 

57-4 

+  3.  069  7  +  .006  1 

+  .OIO 

-.0003      o 

.14            .58         .34 

6i75 

Br  3201 

5-9 

57  22.982 

77-4 

+  3-0637  +  .0058 

+  .OIO 

—  .0065      o 

.10        .34      .15 

6176 

Br  3202 

6.1 

57  28.611 

74-4 

+  3.  042  7  +  .066  1 

+.079 

+  .0027+  I 

.IO           .42         .18 

6177 

Radcl  6274 

8.0 

57  30-984 

76.0 

+  3.0443  +  .0662 

+.079 

+.0038+  I 

.14           .60        .25 

6178 

Br  3203 

7-5 

57  34-525 

71.1 

+  2.9595  +  .2096 

+  •773 

-.0066-   5 

.09           .34         .16 

6i79 

Br  3204 

4.6 

58  37-044 

74.0 

+  3.0762—  .0079 

+  .OI2 

+  .0013      o 

.04        .24      .10 

6180 

Br  3205 

6.1 

59    4-497 

69.2 

+  3.0614+.  0569 

+  .060 

—  .0009      o 

.12            .44         .21 

6181 

Cape.,  4799 

6.0 

59  "-363 

93-o 

+  3.0753-  •°°74 

+  .OII 

+  .0015      o 

.12            .69        .i; 

6182 

Br  3206 

5-3 

59  22.999 

68.8 

+  3.0724—  .0040 

+  .OIO 

—  .0006       o 

.12             .45         .22 

6183 

Groomb  4219 

6-3 

59  28.282 

73-6 

+  3.  0702  +  .0283 

+  .02  1 

+  .0006       o 

.16        .68      .30 

6184 

Groomb  4220 

6.0 

59  30.169 

74-9 

+  3.o8i5  +  .o7i3 

+.087 

+  .0159+   4 

.18        .78      .33 

6185 

L  9710 

5-8 

59  37-039 

88.8 

+  3.0857—  .0908 

+.149 

+  .0065—     2 

.14        .93      .24 

6186 

Br  3207 

6.9 

59  45-38i 

64-4 

+  3.07  23  +  .0496 

+.047 

+  .OO22         O 

.11        .54      .27 

6187 

Groomb  4222 

6.0 

59  55-950 

66.5 

+  3-0735  +  -0552 

+.056 

+  .0019      o 

.12        .68      .32 

6188 

Pi  270 

6.6 

59  56.179 

74-7 

+  3.0748+.ooi3 

+  .010 

+  .0025      o 

.10       .42      .18 

61  S3  ft  73°-    1 1  "a"  270° 


6158  2  3050.     6?S-6?S  a'.'s  214°,  slow  binary. 


CATALOGUE  OF  6 1 88  STARS  FOR  IQOO 


249 


Ho. 

Decl.  1900 

Epoch. 

An.  Var.  and 
Sec.  Var. 

3dt 

p/and  100  A  p.' 

Prob.  Errors. 
>  Ep.   zoo  ji'  S  10 

Remarks. 

6151 

0              /            // 

+  49  53    2-57 

75-6 

It                      II 

+  20.275  +  .005 

II 

-.16 

n 

+  .237      o 

ft             n          n 

.10      .37    .16 

6152 

—  16  24  14.89 

69.1 

+  20.029  +.005 

-•17 

—  .009      o 

.11         .42      .20 

i  Ceti 

6i53 

-   4    6  38.80 

63.6 

+  19.972  +  .004 

-•17 

—  .067      o 

-05         -25      -13 

27  Piscium  * 

6i54 

—  53  18  16.16 

81.8 

+  20.093  +  .004 

-.18 

+  -054      o 

.11         .6l      .20 

6i55 

+  55  "  53-8i 

63-4 

+  20.035  +  .003 

-.16 

—  .005      o 

.08         .23      .13 

23049-     7*3  3"  326° 

6156 

+  6  18  34.71 

73-8 

+  19.93  1  +  .003 

-•17 

—  .109      o 

.02         .14      .06 

6i57 

-30    231.10 

78.6 

+  20.038  +  .003 

-•17 

-.003       o 

.13         .64      .24 

38  G  Sculptoris 

6158 

+  33  1011.97 

78.1 

+  19.960  +  .002 

-.16 

-.081      o 

.09         .31      .13 

* 

6i59 

-   6  26  54.24 

7°-5 

+  19.987  +  .002 

-•17 

-  -054      o 

.08         .33      .16 

6160 

-66    8    0.26 

79-8 

+  2O.OI8  +  .O02 

-.18 

—  .024      o 

.IO         .49      .l8 

6161 

+  86    858.88 

75-5 

+  2O.O46       .OOO 

+  .004      o 

.07         .38      .15 

6162 

+  26  21  46.67 

57-i 

+  2O.OOO+  .OOI 

-•17 

-  -043     ° 

•IS         -56      -33 

6163 

-49  21  59-74 

81.0 

+  2O.O42       .OOO 

-•17 

—  .002      o 

.14         .80      .27 

6164 

-  50  53  40.62 

89-7 

+  20.063—  .001 

-•17 

+  .019      o 

.13         .67      .19 

34  G  Phcenicis 

6165 

-7737    3-83 

86.8 

+  19.888-  .001 

-.19 

—  .156      o 

.IO         .64      .l8 

6166 

+  603957.67 

64.8 

+  2O.O47—  .OO2 

-.16 

+  .003      o 

•08         -33      -I? 

6167 

—  40  42  18.78 

86.2 

+  2O.O2  1—  .OO2 

-•17 

—  .024      o 

.12         .75      .22 

35  G  Phcenicis 

6168 

+  41  48  36.69 

51.0 

+  20.033-  .002 

-•17 

—  .012       o 

.12        .54     .34 

6169 

-   3  35    3-22 

65.6 

+  20.034—  .OO2 

-•17 

—  .Oil         0 

.b6        .23      .12 

29  Piscium 

6170 

-3747    7-94 

83-7 

+  2O.OI2—  .002 

-•17 

-  -033      o 

.12        .64     .21 

40  G  Sculptoris 

6171 

-   6  34  11.45 

67.8 

+  2O.OII—  .OO2 

-•17 

—  -034      o 

.05        .23      .11 

30  Piscium 

6172 

+  2633    9.74 

73-2 

+  19.059—  .OO2 

-•17 

-.986      o 

85  Pegasi.  See  Appendix 

6173 

-30  1639.77 

80.4 

+  20.043  -.003 

--I7 

—  .002      o 

.10      .55    .19 

6174 

+  8  24   0.26 

57-2 

+  20.046—  .OO3 

-•17 

+  .OOI         O 

.12        .52      .30 

31  Piscium 

6175 

+  7  55  47-90 

76.4 

+  2O.OO8—  .003 

-•I? 

-  .038      o 

.10     .31    .14 

32  Piscium  (c  c") 

6176 
6177 

+  65  32  3i-39 
+65  32  36-37 

71.6 
81.6 

+  2O.O4I—  .OO4 
+  2O.OI4—  .OO4 

-.16 
-.16 

—  .005      o 
—  .032      o 

-09        .31      -15 

•13      -75    -25 

J  2  3053-   IS"  70° 

6178 

+  82  24  59.51 

64.4 

+  20.046—  .OO4 

-•'5 

.000      o 

.11      .38    .20 

6179 

-i7  5333-79 

72.0 

+  20.038—  .OO6 

--I7 

-.008      o 

.05      .25    .11 

2  Ceti 

6180 

+  61  43  50.99 

49-8 

+  20.053  -.007 

--I7 

+  .006      o 

.12        .36     .25 

9  Cassiopeia 

6181 

-i7    5    3-53 

00.  1 

+  19.998—  .007 

-•17 

—  .049      o 

.13        .75      .20 

6182 

-ii    358-35 

72.8 

+  20.036—  .OO7 

-•17 

—  .01  1      o 

.10      .43    .19 

3  Ceti 

6183 

+  41  32    9-85 

72.0 

+  2O.O24—  .OO8 

-•17 

-  -023      o 

•13      -53    -24 

02  514.  g»5  5-'5  168° 

6184 

+  663632.57 

72.0 

+  20.083—  .OO8 

-•17 

+  .036      o 

.16      .61    .28 

6185 

-7i  5935-93 

87-5 

+  2O.O32—  .OO8 

-•17 

—  .015      o 

.12        .75     .21 

45  G  Tucanae 

6186 

+  57  5831-09 

64.9 

+  2O.O22—  .OO8 

-•17 

—  .025      o 

.10      .57    .28 

*  3057-    9*5  4"  3°o° 

6187 

+  6045  25.09 

60.4 

+  20.059—  .OO8 

-•17 

+  .OI2         0 

•12        -57      -31 

6188 

-    i    3  29-99 

78-5 

+  2O.OOO—  .OO8 

-•17 

-.047      o 

-09      -39    -'5 

APPENDIX  I. 
EPHEMERIDES  OF  POLAR  STARS. 

These  ephemerides  include  in  the  first  section  all  stars  of  the  Catalogue  that  are  north  of 
+  83°  of  declination,  with  some  others.  The  interval  is  five  years  for  the  more  northerly  stars 
and  twenty-five  years  for  the  remainder.  Usually  the  first  date  is  1900  and  the  last  1925.  For 
o  Ursse  Min.  and  8  Ursae  Min.  the  ephemerides  are  given,  at  five-year  intervals,  from  1800  to 


The  second  section  includes  the  southern  circumpokr  stars  in  like  manner. 

The  columns  following  a  and  8,  respectively,  contain  successively  the  Annual  Variation, 
Secular  Variation,  the  proper-motion,  and  the  secular  variation  of  the  proper-motion. 

For  suggestions  regarding  these  ephemerides  consult  the  Introduction,  especially  pp.  xxrv 
and  xxxra. 


252 
No.  185.  Br  74    51*7 


EPHEMERIDES  OF  POLAR  STARS.    NORTH. 


a 

A.  V. 

S.  V. 

M 

100  A/i 

s 

A.  V. 

S.  V. 

M' 

TOO  AM 

h     m          8 

s 

8 

8 

s 

Of            // 

H 

// 

// 

n 

1900 

o  45  29.70 

+  5-302 

+        .002 

+  •031 

+  .002 

+  83    9  52-39 

+  19-643 

-   .162 

—  .OIO 

—  .001 

1925 

47  44.17 

+  5-457 

+        .638 

+  .032 

+  .002 

18     2.95 

+  19.601 

-  -174 

—  .OIO 

—  .001 

No.  218.  Brg2    4?6  43HCephei 

h    m        a 

s 

8 

8 

8 

Of// 

a 

// 

// 

// 

1900 

o  SS     !-57 

+  7-396 

+     1.482 

+  .077 

+  .OIO 

+  85  43  14-5° 

+  19.467 

—    .267 

-.005 

-.003 

'9°S 

55  38.74 

+  7-471 

+     I-508 

+  .077 

+  .OIO 

44  51.81 

+  19-453 

~    -273 

-.005 

—  .003 

1910 

56  16.28 

+  7-547 

+   1-537 

+  .078 

+  .OIO 

46  29.04 

+  19.440 

-    .279 

-.005 

-.003 

1915 

56  54-22 

+  7-625 

+   1-565 

+  .078 

+  .010 

48     6.19 

+  19.426 

-    -285 

-.005 

—  .003 

1920 

57  32.54 

+  7-7°4 

+    1-595 

+  .079 

+  .010 

49  43-29 

+  19.411 

-    .290 

—  .006 

-.003 

1925 

58  11.26 

+  7-785 

+   1.625 

+  .079 

+  .OIO 

51   20.31 

+  19-396 

—    .296 

-.006 

-.003 

No.  219.  Br  65  6fS 

h   m       s 

s 

8 

8 

8 

Of            It 

// 

rf 

it 

// 

1900 

o  55  36.82 

+  15.416 

+     9-9I3 

+  .180 

+  .061 

+  88  29  15.58 

+  19-444 

-  -554 

—  .Old 

-.006 

i9°S 

56  55-i6 

+  15.924 

+  10.431 

+  .I83 

+.063 

30  52-73 

+  19.415 

-  -585 

—  .016 

-.007 

1910 

58  16.11 

+  16.461 

+  II.OI8 

+  .186 

+  .064 

32  29.73 

+  19-385 

—  .619 

-.017 

-.007 

1915 

59  39-82 

+  17.027 

+  11.634 

+  .189 

+  .067 

34     6.57 

+  19-353 

-  -654 

-.017 

—  .007 

1920 

i     i     6.43 

+  17.625 

+  12.200 

+  -I93 

+  .068 

35  43-26 

+  19-320 

-  -693 

-.017 

—  .008 

1925 

a  36.12 

+  18.257 

+  13.000 

+  .190 

+.071 

37  I9-76 

+  19.283 

-  -734 

—  .018 

-.008 

No.  232.  Br  95  6f6 

h    m        s 

s 

S 

8 

8 

o     /        // 

// 

// 

// 

H 

1900 

o  59    6.10 

+  8.891 

+     2.337 

+  .059 

+  .009 

+  86  36  47.45 

+  I9-367 

-     -341 

-.017 

—  .002 

'9°S 

59  50-85 

+  9.009 

+     2.390 

+  .059 

+  .008 

38  24.25 

+  I9-350 

-  -349 

-.017 

—  .002 

1910 

i     o  36.19 

+  9-130 

+     2.446 

+  .060 

+  .008 

40    0.94 

+  19.332 

-  -359 

-.017 

—  .OO2 

«W 

i  22.14 

+  9-254 

+     2.503 

+  .060 

+  .008 

4i  37-55 

+  I9-3I4 

-  .368 

-.017 

—  .002 

1920 

2    8.73 

+  9-380 

+     2.56l 

+  -06l 

+  .008 

43  i4-°8 

+  19.296 

-  -377 

-.017 

—  .002 

i92S 

2   5S-96 

+  9-5  10 

+     2.622 

+  .061 

+  .007 

44  50-51 

+  19.277 

-  -387 

-.017 

—  .002 

No.  325.  Polaris  19    2  93    9*5  18"  215° 

h    m        s 

s 

S 

8 

s 

O       /            ft 

// 

// 

// 

It 

1800 

o  S2  25.49 

+  13-033 

+  7-000 

+  .095 

+  .030 

+  88  14  24.53 

+  19-539 

-  -442 

+  .006 

-.003 

1805 

53  31-55 

+  13.396 

+  7.419 

+  .097 

+  .031 

16     2.17 

+  19.516 

-   .464 

+  .006 

-.003 

1810 

54  39-47 

+  13-775 

+  7.769 

+  .098 

+  .032 

17  39.69 

+  19.492 

-  .486 

+  .006 

-.003 

1815 

55  49-33 

+14-173 

+  8.140 

+  .100 

+  •033 

19  17.09 

+  19.467 

-  .51° 

+  .005 

—  .004 

1820 

57     1-23 

+  14.590 

+  8.535 

+  .IO2 

+  •034 

20  54.36 

+  19.441 

-   .536 

+  .005 

—  .004 

1825 

58  15-26 

+  15.027 

+  8.954 

+  .103 

+•035 

22   31.51 

+  19.414 

-   -563 

+  .005 

—  .OO4 

1830 

59  31-53 

+  15.486 

+  9.401 

+  .105 

+.036 

24      8.50 

+  19-385 

-   -592 

+  .005 

—  .004 

i83S 

i    o  50.16 

+  15.967 

+  9.876 

+  .107 

+.038 

25  45-35 

+  '9-354 

-   -623 

+  .004 

—  .004 

1840 

2    II.25 

+  16.474 

+  10.384 

+  .109 

+  .039 

27  22.05 

+  19.322 

-   -656 

+  .004 

—  .OO4 

1845 

3  34-94 

+  17.006 

+  10.925 

+  .III 

+  .040 

28  58.57 

+  19.289 

—   .692 

+  .004 

—  .OO4 

1850 

5     1-36 

+  17-567 

+  11.502 

+  .113 

+  .042 

30  34-92 

+  I9.253 

-  -73° 

+  .004 

-.005 

'fSS 

6  30.66 

+18.157 

+  I2.I2O 

+  .115 

+  .043 

32  11.09 

+  19.216 

-  .771 

+  .004 

-.005 

1860 

8    2.99 

+  18.780 

+  I2.78I 

+  .117 

+  .044 

33  47-oS 

+  19.176 

-  .814 

+  .004 

—  .005 

1865 

9  38-51 

+  19.436 

+  13.488 

+  .119 

+  .046 

35  22.86 

+  I9.I34 

-  .861 

+  .003 

-.005 

1870 

ii  17.41 

+  20.129 

+  14.246 

+  .122 

+  .048 

36  58.42 

+  19.090 

—  .912 

+  .003 

-.005 

i»7S 

12  59.87 

+  20.862 

+  !5-o59 

+  .124 

+  .049 

38  33-76 

+  19.043 

-  .966 

+  .003 

—  ,OO6 

1880 

14  46.09 

+  21.636 

+  I5-93I 

+  .127 

+.051 

40    8.85 

+  18.993 

—  1.025 

+  .002 

—  .006 

1885 

16  36.30 

+  22.455 

+  16.869 

+  .129 

+  .053 

41  43.69 

+  18.941 

-1.088 

+  .002 

-.006 

1890 

'8  30.73 

+  23.324 

+  17.877 

+  .132 

+  .055 

43  18.25 

+  18.884 

~I-I57 

+  .OO2 

-.007 

1895 

20  29.63 

+  24.245 

+  18.962 

+  -I35 

+.057 

44  52-52 

+  18.825 

-1.231 

+  .OOI 

-.007 

1900 

22   33.27 

+  25.222 

+  20.131 

+  .138 

+  .059 

46  26.49 

+  18.761 

-1.311 

+  .001 

-.007 

i9°S 

24  41-95 

+  26.259 

+  21.390 

+  .141 

+  .062 

48    0.13 

+  18.694 

-  1-399 

+  .001 

-.007 

1910 

26  55-97 

+  27.363 

+  22.749 

+  -I44 

+  .064 

49  33-42 

+  18.621 

-  1.494 

.000 

-.008 

*9*3 

29  15-69 

+28.537 

+  24.217 

+  •147 

+  .066 

Si     6.33 

+  18.544 

-1.596 

.000 

—  .008 

1920 

3i  41-47 

+29.787 

+  25.803 

+  .ISI 

+  .068 

52  38-85 

+  18.461 

—  1.708 

—  .001 

—  .009 

!92S 

34  13-70 

+31-119 

+  27.522 

+  -I54 

+  .071 

54  10.94 

+  18.373 

-1.830 

—  .001 

—  .009 

No.  726.  Br  402    s™9 

h     m       s 

8 

8 

s 

8 

Of            ft 

n 

// 

II 

II 

1900 

3    8  34.80 

+  13.406 

+     I-637 

+  .051 

—  .004 

+  84  33  26.56 

+  13-503 

-1-444 

-.132 

—  .006 

!925 

14  15-" 

+  13.819 

+     1.676 

+  .050 

—  .004 

38  59-54 

+  I3-I35 

—  1.521 

-•133 

-.005 

EPHEMERIDES  OF  POLAR  STARS.    NORTH. 

No.  830.  Groomb  642    6™o 


253 


a 

A.  V. 

S.  V. 

M 

100  AM 

1 

A.  V. 

S.  V. 

V-' 

IOO  AM' 

IOOO 

1905 

1910 

1915 

1920 

1925 

h    m      s 
3  33  55-°8 
35  35-46 
37  16-67 
38  58-71 
40  41.59 

42    25.31 

s 
+  19-993 
+  20.159 
+  20.325 
+  20.492 
+  20.660 
+  20.828 

s 

+  3-315 
+  3-326 
+  3-336 

+  3-345 
+  3-353 
+  3-359 

+  .164 
+  .164 
+  .165 
+  .165 
+  .165 
+  .165 

9 
+  .006 
+  .006 
+  .006 
+  .OO5 
+  .005 
+  .005 

0         /               // 

+  86  19  57.09 
20  56.11 
21  54-54 

22    52-35 

23  49-55 
24  46.12 

+  11.864 

+  11-745 
+  11.624 
+  11.502 
+  ".378 
+  11.252 

// 

-2.367 
-2.398 
-  2.432 
-  2.464 
-2.498 
-2-531 

II 

-.066 

—  .067 

-.068 

—  .069 
—  .070 

-.071 

—  .019 
—  .019 
—  .019 
—  .020 
—  .020 
—  .020 

No.  957.  Groomb  766    5™6 

IOOO 

1925 

h    m       s 
4     4  59.40 
10  38.96 

s 

+  13-459 
+  13-705 

s 

+      -993 
+     -977 

s 
—  .001 

—  .001 

+  .001 
+  .001 

Of             It 

+  83  33  52.36 
37  48.34 

// 

+  9-657 
+  9.219 

// 

-1.725 
-1.779 

II 

+  .014 
+  .014 

a 

.000 

.000 

No.  958.  Groomb  750    6"?8 

1900 

1905 
1910 

1915 
1920 

1925 

h    m       s 
4     5     5-70 
6  32-5° 
7  59-75 
9  27.45 
10  55.60 

12   24.18 

s 

+  17.316 

+  17.406 

+  17-495 
+  17-584 
+  17-673 
+  17.761 

+     -797 
+     -791 
+     -785 
+     .778 
+     -771 
+     .763 

s 

+  .015 
+  .015 
+.015 
+  .016 
+.016 
+.016 

9 
+  .004 

+  .004 
+  .004 
+  .004 
+  .004 
+  .004 

O         /                // 

+  85   17  28.72 
18  16.78 
19    4.28 

'9  Si-23 
20  37.59 
21  23.38 

+  9.668 
+  9-557 
+  9-444 
+  9-331 
+  9.217 
+  9.102 

u 

—  2.220 
-2.239 
-2.258 
-2.277 
—  2.296 
-3-3I5 

II 

+  .033 
+.033 
+.033 
+  .033 
+  .033 
+.033 

II 
—  .002 
—  .002 
—  .002 
—  .002 
—  .002 
—  .002 

No.  968.  Groomb  774    5^9 

1900 
'925 

h    m       9 
4     7  59-23 
13  21.74 

s 

+  12.794 
+  13.007 

+     !86i 
+     .846 

s 

—.030 
—  .029 

s 

+  .003 
+  .003 

Of                 It 

+  83    5  59.96 
9  52-79 

a 

+  9-521 
+  9.104 

It 

-1.647 
—  1.694 

u 

+  .109 

+  .IIO 

+  .OO4 
+  .OO4 

No.  1191.   Radcl  1311     6*J8 

1900 

I0°5 
1910 

1915 
1920 

'925 

h    m       3 
4  S6   17-83 
58      1.63 
59  45-78 
5     !  30-26 
3  iS-o? 
S    0.18 

s 

+  20.727 
+  20.796 
+  20.863 
+  20.928 
+  20.992 

+  21.054 

+   1.386 
+   L356 
+   1-325 
+   1-293 
+   1.261 
+   1.228 

8 

+  .030 
+  .030 
+  .029 
+  .029 
+  .029 
+  .028 

s 

-.007 
-.007 
-.007 
-.007 
-.007 
-.007 

O         /               II 

+  85  49  46.36 
50  13.16 
50  39-23 
Si     4.58 
51  29.17 
51  53-02 

// 

+  5-434 
+   5.288 

+    S-'4I 
+   4-993 
+   4.845 
+   4.696 

// 
-2.913 
-2.928 
—  2.944 
-2.958 
-2.974 
-2.988 

it 

—  .067 
-.067 
-.067 
-.068 
-.068 
-.068 

—  .004 
—  .004 
—  .OO4 
—  .004 
—  .004 
—  .OO4 

No.  1360.  Groomb  944    6*5 

1900 

1905 
1910 

1915 
1920 

1925 

h    m       9 

5   29  54-49 
31   28.02 

33     1-68 
34  35-45 
36     9-33 
37  43-31 

a 
+  18.694 
+  18.719 

+  I8.743 
+  18.765 
+  18.786 
+  18.806 

+     "512 
+     .486 

+     .461 
+      -434 
+      -407 
+      -383 

+  .OI6 
+  .016 
+  .OI6 
+  .016 
+  .OI6 
+  .016 

s 

+  .001 
+  .OOI 
+  .OOI 
+  .000 
+  .000 

+  .000 

01             II 

+  85    8  49-75 
9    2.55 
9  14.68 
9  26.13 

9  36-90 
9  46.98 

// 
+   2.628 
+   2.493 
+    2.358 

+     2.222 
+     2.086 

+    1-949 

n 

—  2.706 
—  2.711 
-2.717 
—  2.722 
—  2.728 
-S.732 

11 
+  .004 
+  .004 
+  .004 
+  .004 
+  .004 
+  .004 

11 

—  .002 
—  .002 
—  .OO2 
—  .002 
—  .002 
—  .002 

No.  1557.  Groomb  1004    6*9 

1000 

1905 
1910 

1915 
1920 

1925 

h    m       9 
6    8     2.87 
10  16.31 

12    29.64 
14    42.84 

16  55.89 
19    8.77 

+  26.698 
+  26.678 
+  26.654 
+  26.626 
+  26.595 
+  26.558 

9 
-        -351 

-     -434 
-      -517 
-     .600 
-      .682 
-      .764 

S 

+  .030 
+  .029 
+  .028 
+  .027 
+  .026 
+  .025 

s 

—  .020 
—  .020 

—  .020 

—  .020 

—  .020 
—  .020 

01             II 

+  86  45  36.42 
45  31-93 
45  26.47 
45  20.03 
45  "-63 
45     4-27 

H 

-     .800 

-     -995 
—   1.189 

-   1-384 
-   L578 
-   I-77I 

II 

-3.894 
-3.890 
-3.884 

-3-877 
-3.869 
-3.861 

it 

-.097 
-.097 
-.097 
—  .098 
-.098 
-.098 

// 

-.004 
—  .004 
—  .OO4 
—  .004. 
—  .004 
—  .OO4 

No.  1801.  51  H  Cephei    5*4    Groomb  1141 

1900 

1905 
1910 

1915 
1920 

1925 

h    m       s 
6  53   44-29 
56   12.24 

S8  39-51 
7     i    6.08 

3  3I-9I 
5  56-99 

s 

+  29.657 

+  29-523 
+  29.384 

+  29.241 
+  29.093 

+  28.940 

9 
-     2.634 
-     2.731 
-     2.826 
-     2.917 
-     3-005 
-     3.088 

s 

-.047 
-.047 
—  .048 
-.048 
—  .048 
-.049 

s 

-.008 
-.008 
-.007 
-.007 
-.007 
-.006 

of          n 
+  87    12    20.38 
II    56.38 
"    31-34 
II       5.26 

10  38.16 
10  10.04 

II 

-   4.696 
-   4-905 
-  5-ii2 

-  5-318 
-  5.522 
-  5.724 

II 

-4.197 
-4.167 
—  4.136 
-4.104 
-4.071 
-4.038 

II 

-.038 
-.038 
-.037 
-.037 
—  .036 
—  .036 

If 

+  .007 
+  .007 
+  .007 
+  .007 
+  .007 
+  .007 

254 
No.  2103.  Groomb  1359 


EPHEMERIDES  OF  POLAR   STARS.    NORTH. 


a 

A.V. 

S.  V. 

V- 

ioo  A/t 

1 

A.V. 

S.  V. 

A*' 

100  Aju' 

1900 

1925 

h    m        8 
7  53     1-67 
59  "-75 

8 
+  14.961 

+  14.645 

s 

—    1.260 
—   1.276 

s 
—  .004 

—  .004 

s 

—  .002 
—  .001 

O          /                It 

+  84    20    49.77 

16  45.89 

II 

-  9-5  r9 

-  9.989 

—  1.916 
—  1.848 

-.028 
—  .028 

II 

+  .001 
+  .001 

No.  2135.  Groomb  1119    7l"3    4BUrsseMin 

1900 

1905 
1910 

1915 
1920 

1925 

h    m       s 
7  58    2.65 
8     3  25-99 
8  41.09 
13  48.00 
18  46.75 
23  37-41 

+  65.491 
+  63.845 
+  62.200 
+  60.563 
+  58.939 

+  57-333 

-32-929 
-32.832 
-32.630 
-32.313 

-31.908 

s 

-.035 
-.034 
-•033 
-.032 
-.031 

—  .030 

s 

+  .022 
+  .022 
+  .021 
+  .O2O 
+  .020 

+  .019 

Of             It 

+  88  55  59.22 
55    8.86 
54  16.50 

53    22.22 

52  26.10 

51  28.23 

tt 

-  9.868 
-10.275 
—  10.666 
—  11.042 
—  11.402 
-11.747 

-8.302 
-7.982 
-7.666 
-7.360 
-7.058 
-6.760 

tt 

+  .007 
+  .007 
+  .007 
+  .008 
+  .008 
+  .008 

tt 

+  .004 
+  .004 
+  .004 
+  .004 
+  .004 
+  .004 

No.  2261.  Groomb  1418    ffj 

1900 

1905 
1910 

1915 
1920 

h    m       s" 
8  25  20.80 
26  42.52 
28     3.70 
29  24-35 
30  44-47 
32     4-05 

+  16.398 
+  16.290 
+  16.183 
+  16.076 
+  15.970 
+  15.863 

-  2.155 
-  2.149 
-  2.143 
-  2.137 
-  2.130 

—    2.122 

s 

-.079 
-.079 
-.079 
-.079 
-.079 
-.079 

s 
—  .001 

—  .001 
—  .002 
—  .002 
—  .002 

—  .002 

O         /              // 

+  85  24  29.56 
23  29.50 

22    28.97 
21    27.98 
2O    26.52 
19    24.62 

-11.963 
-12.059 

—  12.246 

-12-337 
—  12.428 

tt 
—  1.91  1 

—  1.891 
—  1.869 
-1.848 
-1.828 
-i.  808 

-.085 
-.085 
-.084 
—  .084 
-.083 
-.083 

It 

+  .009 
+  .009 
+  .009 
+  .009 
+  .009 
+  .009 

No.  2415.  Radcl  2218    6^5 

1900 
1925 

h    m        s 
8  54  32-25 
59  59-22 

+  12.874 

s 
—    1.669 
—   1.611 

s 

+  •013 
+•013 

s 
+  .000 
+  .000 

o      /          // 

+  84  34  58.63 
29     8.99 

-13-815 
-I4-I54 

tr 

-r-397 
-1.322 

a 

+  .019 
+  .019 

—  .001 

—  .001 

No.  2745.  Br  1399    s"J6  29  H  Camelopardi 

1900 
1925 

h    m         s 
IO  15     9.27 
19     0.16 

s 

+  9.419 
+  9-054 

-   1*508 
-   I-4IS 

s 

-.090 
-.088 

s 

+  .007 
+  .007 

or          tt 

+  84  45  37.18 
38     4-72 

II 

—  18.026 
—  18.170 

-     -593 
-     -550 

—  .041 
—  .040 

+  .006 
+  .005 

No.  2762.  Pi  22    5*3  30  H  Camelopardi 

1900 

h    m        8 
10  18  54.87 
22      5-II 

s 

+  7-720 
+  7-501 

-     ?8o8 
-     -856 

s 

-•045 
-.044 

s 
+  .004 
+  .004 

e      /         // 

+  83     4     2.98 
+  82  56  28.93 

II 

—  18.104 
—  18.218 

-   .470 
-   -443 

tt 

+  .024 
+  .025 

+  .003 
+  .003 

No.  2953.  Radcl  2612    7«*5 

1900 

1905 
1910 

1915 
1920 

1925 

h    m       s 
II      2  29.98 
3     9-82 
3  49-22 
4  28.17 
5     6.70 
5  44-8o 

8 
+     8.014 
+     7-924 
+     7-835 
+     7-748 
+     7.662 

+   7-579 

-   1.832 
-   1-794 
-   1-758 
-   1.723 
-   1.688 
-   1.656 

8 

-.031 
-.031 
-.031 
-.030 
—  .030 
-.030 

s 

+  .004 
+  .004 
+  .004 
+  .004 
+  .004 
+  .004 

0         /             // 

+  86  10  57.97 
9  20.83 
7  43-62 
6     6.34 
4  29.00 

2    51.60 

n 

-19.421 

-  19-435 
-  19-449 
—  19.462 

-19-475 
-  19.488 

tf 

-  .281 

-  -275 
-  .268 
-  .262 
-  -256 
—  .250 

tt 

—  .002 

—  .002 
—  .002 
—  .002 
—  .002 
—  .002 

tt 

+  .00  1 

+  .OOI 
+  .001 

+  .00  1 

+  .001 
+  .OOI 

No.  3154.  Groomb  1850    6*5 

1900 

1905 
1910 

1915 
1920 

1925 

h    m        s 
ii  59  42.78 
59  57-92 

12      O    12.95 

o  27.87 
o  42.70 
o  57-43 

+  3-038 
+  3-oi7 
+  2.996 
+   2.976 
+   2.956 
+  2.936 

I 
-     -431 

-    .422 

-    .413 
-    .404 

-  .396 
-  .387 

-•059 
-•059 
—  .058 
-.058 
-•057 
-•057 

s 

+  .009 
+  .008 
+  .008 
+  .008 
+  .008 
+  .008 

O         t             II 

+  86    8  28.70 
6  48.00 
5    9-i2 
3  29.33 
i  49-54 
o     9.76 

n 

~  19-959 
-  19-958 
-  I9-958 
-  I9-958 
-19-957 
-  19.956 

+  .008 
+  .008 
+  .009 
+  .009 

+     .010 
+     .010 

OO  00  00  00  CO  00  I 
00  00  00  00  CO  CO 

^  o  o  o  o  o  o 

.000 

.000 

.000 
.000 
.000 
.000 

EPHEMERIDES  OF  POLAR   STARS.    NORTH. 


255 


No.  3204.   Br  1656 


a 

A.  V. 

S.  V. 

*i 

ioo  A/i 

1 

A.  V. 

S.  V. 

if 

ioo  A// 

1900 

1905 

1910 

1915 
1920 

1925 

h     m       s 
12  13  55-74 
14    4.70 

14  13-63 
14  22.55 
14  31-44 
14  40.31 

5 
+      1.794 
+      1.789 
+      1.785 
+      1.780 
+      1.776 
+      1.772 

s 

-      .092 
-      .089 
-      .087 
—     .084 
—      .082 
-      .079 

+  .266 
+  .264 
+  .261 

+  •259 
+  .256 

+  .254 

s 
—  .049 
-.048 
—  .047 
—  .046 
—  .046 
—  .045 

0         /             It 

+  86  59  29.91 
57  49-84 
5<S    9-77 
54  29-70 
52  49-65 
51     9.60 

// 
—  20.016 
-20.015 
—  20.013 

—  2O.OI2 
—  2O.OII 
—  20.010 

// 

+  .027 

+  .027 
+  .027 
+  .027 
+  .027 
+  .027 

it 
—  .006 
—  .006 
—  .006 
—  .006 
—  .006 
-.006 

it 

+  .002 
+  .OO2 
+  .OO2 
+  .002 
+  .002 
+  .OO2 

No.  3208.  Br  1672  6^5  6  B  Ursas  Min 

1900 

1905 
1910 

i9'5 
1920 

i925 

h     m       s 

12   14  23.17 
14  24.51 
14  26.05 
14  27.76 
14  29.66 
14  31-73 

+         .248 
+         .288 
+         .326 
+         .362 

+     -397 
+     -43° 

+     .818 

+      .782 
+      .746 
+      -713 
+      .682 
+      -652 

s 
-.074 

-•073 
-.072 
-.071 
—  .070 
—  .069 

s 
+  .021 
+  .O2O 
+  .020 
+  .019 
+  .OI8 
+  .018 

01               // 

+  88  15  15.20 
13  35-45 
"  55-71 
10  15-97 
8  36-23 
6  56.50 

// 

-  19-949 
-  19.949 
-  19.948 
—  19.948 
-19.947 
-19.946 

+  .OIO 
+  .010 
+  .OII 
+  .OII 
+  .012 
+  .OI2 

tf 

+  .058 
+  .058 
+  .058 
+  .058 
+  .058 
+  .058 

11 
—  .001 
—  .001 

—  .001 

—  .001 
—  .001 
—  .001 

No.  3354.  32'  H  Camelopardi    6«i   Br  1730 

1900 
1925 

h     m       s 

12    48    15.64 
48    26.68 

+     .416 
+     .466 

s 

+    .207 
+    .193 

a 

-.015 
-.015 

s 
+  .OOI 
+  .OOI 

0        1             II 

+  83  57  41-53 
49  3'-85 

// 

-19.590 
-19-585 

ft 

+  .020 
+  .022 

• 
+  .014 
+  .014 

II 
.000 

—  .000 

No.  3356.  32'  H  Camelopardi    5*5  Br  1731 

1900 
1925 

h     m       s 
12  48  23.16 
48  34.02 

S 
+        .409 

+      -459 

+    .208 
+    .194 

8 
-.018 
-.018 

1 
+  .002 
+  .OOI 

0          /               // 

+  83  57  23.40 
49  13-80 

// 

-19.587 
-19.581 

H 

+  .O2O 
+  .O22 

tr 

+.015 
+.015 

II 

.000 

—  .000 

No.  3407.  Groomb  2006    7*7 

1900 

1905 
1910 

1915 
1920 

1925 

h     m       3 
13     4  30.28 
3  47-70 
3    6.56 

2    26.80 

I    48.37 
I     II.  21 

-   8^665 
-   8.370 
-   8.088 
-    7-8I7 
-   7-557 
-   7.308 

8 
+    6.022 
+    5.769 
+    S.S28 
+    5-301 
+    5.084 
+    4-876 

S 
-.013 
-.013 
-.013 
-.013 
-.013 
-.013 

S 
+  .002 
+  .002 
+  .OO2 
+  .002 
+  .002 
+  .002 

of          n 

+  88  it  11.52 
9  35-25 
7  58-90 
6  22.46 

4  45-95 
3     9-37 

// 

—  19.246 
—  19.263 
-19.279 
-19.294 
-  19-309 
-  19-323 

// 

-•343 
-.328 

-.313 
-.299 
-.286 
-•273 

H 

+  .OI2 
+  .OI2 
+  .012 
+  .012 
+  .OI2 
+  .OI2 

II 

.000 

.000 

.000 
.000 
.000 

.000 

No.  3470.  Groomb  2007    7?5 

1900 

1905 
1910 

1915 
1920 

1925 

h     m       s 

13   18  38.94 
18  26.68 
18   14.63 
18     2.81 
'7  S!-i9 
17  39-79 

a 

-   2-475 
-   2.430 
-   2.387 
-   2.344 
-   2.302 
—   2.260 

+       .895 
+       .883 

+     .868 
+     -853 
+     -839 
+     .826 

S 

—  .104 
—  .104 

-.103 

—  .102 
—  .102 
—  .IOI 

8 
+  .011 
+  .OII 
+  .OIO 
+  .OIO 
+  .010 
+  .OIO 

0          /               // 

+  85  16  38.46 
15    4.i9 
13  29.89 

"  55-55 
10  21.19 
8  46.81 

a 

—  18.852 
-18.858 
-  18.863 
-  18.869 
-18.875 
-  18.880 

// 

-.119 
-.116 
-.114 
—  .in 
-.109 
-.107 

11 

+  .026 

+  .O26 
+  .026 
+  .025 
+  .025 
+  .025 

II 

-.005 
-.005 
-.005 
-.005 
-.005 
-.005 

No.  3574.  Pi  263    6^3  Groomb  2063 

1900 
1925 

h     m        s 

13  45  10.41 
44  24.23 

s 
—    1.911 
-    I-784 

s 

+    .5!9 
+    .492 

s 
+  .O22 
+  .022 

s 
—  .001 

—  .001 

O          '              // 

+  83  15   15.34 
7  44-50 

// 

—  I8.O2O 
—  18.048 

// 

-.114 
-.105 

ff 

-.047 
-.047 

II 

+  .001 
+  .OOI 

No.  3833.  Groomb  2196    5^9 

1900 
i925 

h     m       s 
14  57    3-i5 
55  l6-49 

s 

-  4-351 
-  4.183 

+     .686 
+     .662 

S 
+  .OOO 
+  .090 

a 

+  .002 
+  .002 

or          // 

+  82  55  21.55 
49  15.26 

It 

-  14-599 
—  14.704 

ft 

-.427 
-.407 

ff 

-•243 
-.241 

+  .009 
+  .009 

256 


EPHEMERIDES  OF  POLAR   STARS.    NORTH. 


No.  3851.  Groomb  2213    7**2 


a 

A.  V. 

S.  V. 

M 

100  A/* 

I 

A.  V. 

S.  V. 

>>•' 

loo  AM' 

h    no       s 

s 

s 

S 

8 

O         /              // 

tf 

n 

tt 

a 

1900 

15      I   40.86 

-  6.538 

+     1.  122 

—  .010 

+  .000 

+  84    20    13.57 

—  14-059 

-  -674 

+  .012 

—  .001 

1923 

14  59     0.88 

—  6.263 

+     1.078 

—  .010 

+  .000 

14    20.03 

-14.223 

-  -638 

+  .OI2 

—  .001 

No.  3877.  Groomb  2283    7^3 

h     m         s 

3 

s 

9 

s 

or         n 

it 

// 

/; 

tt 

1900 

15     9  20.50 

-20.557 

+  7-003 

-.008 

—  .004 

+  87  37     3.71 

-13-567 

-2.199 

+  .019 

—  .001 

I0°5 

7  38-58 

—  2O.2IO 

+  6.894 

-.008 

—  .004 

35  55-6o 

-J3-675 

-2.147 

+  .019 

—  .OOI 

igio 

S  S8-39 

-  19.868 

+  6.784 

—  .008 

—  .004 

34  46.96 

-13.781 

-2.095 

+  .019 

—  .001 

1915 

4   19.89 

-I9-532 

+  6.675 

—  .OO9 

—  .004 

33  37-79 

-  13-885 

-2.047 

+  .0ig 

—  .OOI 

1920 

2    43.06 

—  I9.2OI 

+  6.567 

—  .009 

-.003 

32  28.11 

-  13-986 

-1.998 

+  .Oig 

—  .001 

1925 

I   7.88 

-18.875 

+  6.458 

—  .OO9 

-.003 

3i  17-94 

-  14-085 

-1-951 

+  .019 

—  .OOI 

No.  4065.  Groomb  2315    7*7 

h    m        8 

S 

3 

8 

s 

0         /              // 

// 

// 

tt 

„ 

1900 

15  53  46.94 

-     6.540 

+         .706 

+  .009 

—  .000 

+  83    14  57.82 

—  10.487 

-    .807 

+  .004 

+  .001 

1923 

5i     S-64 

~     6.365 

+         .696 

+  .009 

—  .001 

10  33-16 

—  10.685 

-   -779 

+  .004 

+  .00  1 

No.  4327.  «  Ursae  Min    4^5 

h    m       s 

s 

8 

S 

S 

or         n 

rt 

H 

„ 

// 

1900 

16  56   12.21 

-  6.304 

+        ^15 

+  .007 

—  .000 

+  82    12       7.66 

-   5-5io 

-     .880 

—  .OOI 

+  .001 

i92S 

53  35-60 

—   6.224 

+        -323 

+  .007 

—  .000 

9    47-19 

-   5-728 

-   .866 

—  .OOI 

+  .001 

No.  4591.  8    Ursae  Min    4^3 

h    m        s 

s 

, 

S 

8 

O         /              // 

// 

tr 

it 

// 

1800 

18  36  38.30 

-18.871 

—     I-058 

+  .029 

-.007 

+  86  33  42.45 

+   3-237 

-2.714 

+  .044 

+  .004 

1805 

35    3-8i 

-  18.923 

—     I.OI7 

+  .028 

—  .007 

33  58-29 

+   3.101 

-2.725 

+  .045 

+  .004 

1810 

33  29-o7 

-  18.973 

-        -976 

+  .028 

-.007 

34  13-46 

+   2.964 

-2-735 

+  .045 

+  .004 

1815 

31  54-09 

—  19.020 

-     -933 

+  .028 

—  .007 

34  27-93 

+   2.827 

-2-744 

+  .045 

+  .004 

1820 

30  18.87 

—  19.066 

-     .890 

+  .027 

—  .008 

34  41-74 

+   2.690 

-2-754 

+  .045 

+  .004 

1823 

28  43-43 

—  19.110 

-     -847 

+  .027 

-.008 

34  54-84 

+   2-552 

—  2.762 

+  .045 

+  .004 

1830 

27  7.78 

-19.151 

-     .803 

+  .026 

—  .008 

35     7-26 

+   2.414 

-2.770 

+  .046 

+  .004 

1835 

25  31.92 

-19.190 

-     -758 

+  .026 

-.008 

35  18.98 

+   2.275 

-2.778 

+  .046 

+  .004 

1840 

23  55-88 

-19.227 

-     -713 

+  .025 

-.008 

35  30-00 

+   2.136 

-2.786 

+  .046 

+  .004 

1845 

22    19.66 

—  19.261 

-     .668 

+  .025 

—  .008 

35  40.33 

+   1.996 

-2.792 

+  .046 

+  .004 

1850 

20    43.27 

-19.294 

-     .622 

+  .025 

-.008 

35  49-97 

+   1.857 

-2-799 

+  .046 

+  .004 

1855 

J9    6.73 

-  19-323 

-     -575 

+  .024 

—  .008 

35  58-90 

+   1.717 

-  2-805 

+  .046 

+  .004 

1860 

17    30.04 

-^•SS1 

-     .528 

+  .024 

-.008 

S6    7-i3 

+   1.576 

-2.810 

+  .047 

+  .004 

1865 

15    53-22 

-  19.376 

—     .481 

+  .O24 

-.008 

36  14.66 

+   1-436 

—  2.815 

+  •047   . 

+  .003 

1870 

14    16.29 

-  19-399 

-     -434 

+  .023 

-.008 

36  21-50 

+   1.295 

-2.820 

+  .047 

+  .003 

i»7S 

12    39.24 

-19.419 

-     -386 

+  •023 

-.009 

36  27.61 

+   1.154 

-2.824 

+  .047 

+  .003 

1880 

II      2.IO 

-  19-438 

-     .338 

+  .022 

—  .009 

36  33-03 

+     I.OI2 

-2.828 

+  .047 

+  .003 

1885 

9  24.87 

-19-453 

—     .290 

+  .022 

-.009 

36  37-73 

+        .871 

-2.831 

+  .048 

+  .003 

1890 

7  47-57 

-  19.467 

-     .241 

+  .O22 

-.009 

36  41-74 

+       .729 

-2.834 

+  .048 

+  .003 

1895 

6    IO.2I 

-19-477 

-     .192 

+  .021 

—  .009 

36  45-02 

+       .588 

-2.836 

+  .048 

+  .003 

1900 

4  32-80 

—  19.486 

-     -144 

+  .021 

—  .009 

36  47-6i 

+       .446 

-2.837 

+  .048 

+  .003 

*9°5 

2  55-35 

-  19.491 

—     .092 

+  .021 

—  .OO9 

36  49-48 

+        .304 

-2.839 

+  .048 

+  .003 

1910 

i  17.89 

-  19-495 

—     -044 

+  .O2O 

—  .009 

36  50-64 

+       .162 

—  2.840 

+  .048 

+  .003 

1915 

17  59  40.41 

-  19.496 

+     .005 

+  .O2O 

—  .OOg 

36  51.10 

+       .020 

-  2.840 

+  .048 

+  .003 

1920 

S8     2.93 

-  19-494 

+     -°53 

+  .OI9 

—  .009 

36  50-85 

—       .122 

—  2.840 

+  .049 

+  .003 

^S 

S6  25.47 

-19.491 

+        -IO2 

+  .OI9 

—  .OOg 

36  49-88 

—       .264 

-2.839 

+  .049 

+  .003 

No.  4605.  Br  2417    6fo  24  Ursse  Min 

h    m         s 

s 

, 

8 

S 

Of            // 

// 

// 

// 

// 

1900 

18     7  47.52 

—  22.296 

—       .291 

+  .068 

—  .001 

+  86  59  38.66 

+     .688 

-3.240 

+  .006 

+  .010 

1905 

5  56-00 

-22.308 

—       .219 

+  .068 

—  .001 

59  41-69 

+     -525 

-3-242 

+  .006 

+  .OIO 

1910 

4     4-43 

—  22.318 

—       .148 

+  .068 

—  .001 

59  43-91 

+     -363 

-3.244 

+  .007 

+  .010 

J9i5 

2    12.82 

-22.323 

—       .076 

+  .068 

—  .002 

59  45-32 

+     .201 

-3-245 

+  .008 

+  .010 

1920 

O    21.  2O 

-22.325 

—        .OO4 

+  .068 

—  .OO2 

59  4S-92 

+     .039 

-3-245 

+  .008 

+  .OIO 

1925 

17    58    29.58 

-22.324 

+        .068 

+  .068 

—  .OO2 

59  45-71 

-     .124 

-3-245 

+  .008 

+  .010 

EPHEMERIDES  OF  POLAR   STARS.    NORTH. 

No.  4971.   \UrsaeMin    6"J8    Br  2705 


257 


a 

A.  V. 

S.  V. 

V- 

ioo  A/a 

5 

A.  V. 

S.  V. 

n' 

ioo  A/t' 

1900 

1905 
1910 

1915 

1920 

1925 

h    m       s 
19  22  29.27 
16  46.84 
10  57.98 
5     2.95 
18  59     2.16 
52  55-99 

s 

—  67.822 

—  69.140 
—  70.400 

-71-594 
-72.714 

-73-744 

-  26.888 
-25.816 

-24.57! 
-23.140 

-21.534 
-19.750 

s 
-.103 
-.105 
-.107 
—  .109 
—  .III 

—  .112 

s 
—  .042 
—  .040 

-.038 
—  .036 

-•033 
-.030 

O         /                // 

+  88  59  15.82 
59  50-01 
+  89    o  21.81 
o  51.17 
i  18.01 
i  42.30 

// 

+   7-071 
+  6.60  1 
+  6.118 
+   5.622 
+  5-JI4 
+    4.596 

It 

-  9.272 
-  9-538 
-  9-792 
—  10.040 
—  10.271 
—  10.487 

rt 

+  .011 
+  .010 
+  .OIO 

+  .009 
+  .008 
+  .007 

-.014 

--015 
-.015 
-.015 
—  .016 
—  .016 

No.  5140.  Groomb  3402    8"?5 

1900 

1905 
1910 

1915 
1920 

1925 

h    m        s 

19  59    0.77 
54  31-62 
49  55-97 
45   J3-84 
40  25.27 

35  30.33 

-53Si8i 
-54.480 

-55-779 
-57.072 

-58-354 
—  59.620 

s 

-25.977 
-25.996 

—  25.928 
-25.764 
-25.496 
-25.118 

+  •356 

+  •354 
+  -35I 
+  .348 
+  •344 
+  •340 

s 

-•039 
-.048 

-•059 

—  .070 

-.081 
-•093 

O          /                // 

+  88  49  32.94 
50  22.30 
51     9-92 
51  55-76 
52  39-74 
53  21.80 

// 
+  10.041 
+  9.700 
+  9-348 
+  8.983 
+   8.606 
+   8.217 

t> 
—  6.690 
-6.930 
-7-174 
-7.420 
-7.664 
-7.908 

tt 

+  .092 
+  .095 
+  .097 
+  .099 

+  .102 
+  .104 

// 

+  •045 
+  .045 

+  •045 
+  .045 

+  .045 
+  •045 

No.  5207.  Groomb  3212    7^1 

1900 
1925 

h    m        s 
20   13   59.68 
10  29.97 

-  8^56 
-  8.523 

s 

—   1.061 
—   1.080 

s 
—  .008 
—  .008 

s 
+  .002 
+  .OO2 

Of             ft 

+  84    22    38.07 
27    10.43 

ft 

+  11.022 
+  10.765 

// 

—    1.009 
—    I.O52 

it 
—  .042 
•—  .042 

// 
—  .OOI 
—  .OOI 

No.  5324.  Radcl  4976    6^4 

1900 
1925 

h    m         s 
20  39     5.25 
36  42.09 

S 
~     5-63I 
-     5-823 

-     -3755 
-     -776 

s 

+  •013 
+  .013 

S 
+  .002 
+  .002 

Of                It 

+  83  16  44.22 

22       2.17 

// 

+  12.708 
+  12.636 

tt 

~    -635 
-    .662 

tt 
—  .026 
—  .026 

ir 

+  .002 
+  .002 

No.  5499.  Groomb  3548    7^7 

1000 

1905 
1910 

1915 
1920 

1925 

h    m         s 
21    19    35-03 
!8    37-13 
17    38.40 

16  38.81 

15  38.37 
14  37.06 

s 

-11.408 
—  11.663 

-11.831 

—  I2.OO2 
-12.175 

-"-SS1 

-  3-286 
-  3-337 
-  3.388 
—   3-441 
-   3-493 
-  3-547 

s 
+  .022 
+  .022 
+  .022 
+  .O22 
+  .O22 
+  .022 

s 
+  .001 
+  .OOI 
+  .001 
+  .001 
+  .OOI 
+  .001 

o       /          n 

+  86  37  24.54 
38  41.14 

39  57-45 
41  13.49 
42  29.25 
43  44.70 

// 

+  15-346 
+  15.292 

+  15-236 
+  15.180 
+  15.122 
+  15.062 

// 

-1.085 
—  1.105 
—  1.127 
-1.149 
-1.171 
-1.194 

// 

+  .013 
+  .013 
+  -OI3 
+  .013 
+  .013 
+  .014 

+  .OO2 
+  .002 
+  .002 
+  .OO2 
+  .OO2 
+  .002 

No.  5509.   Br  2832    7^2 

IOOO 

1925 

h    m         s 
21   21   32.97 
19  30.05 

-     4.805 

-  5-°3° 

-     !88o 
—     .920 

S 
+  .013 
+  .013 

s 
+  .001 
+  .OOI 

0          /                // 

+  83  50  ii.  10 
S6  35-47 

It 

+  IS-432 
+  15-316 

// 

-   .452 
-   .478 

// 
—  .Oil 

—  .on 

+  .001 
+  .OOI 

No.  5784.  Br  2993    5^4    32  H  Cephei 

1900 

1905 
1910 

1915 
1920 

!925 

h    m       s 
22  21    18.14 

20    57.30 
20   36.13 
20    14.61 
19    52.76 
19   30-54 

s 

-  4.136 
—  4.201 
-  4.268 

-  4.337 
-  4.406 
-  4.476 

-   1.308 
-   I-33o 
-   1-352 
-   1-375 
-   1-398 
—   1.422 

s 

+  .051 
+  .051 
+  .051 
+  .052 
+  .052 
+  .052 

s 

+  .004 
+  .004 
+  .004 
+  .004 
+  .004 
+  .004 

O          /               II 

+  85  36  17.27 
37  48.57 
39  '9-79 
40  50-95 
42  22.05 
43  53-o8 

// 

+  18.265 
+  18.252 
+  18.239 
+  18.225 
+  18.212 
+  18.198 

// 

-   .256 
—   .261 
-  .266 
-   .271 
—   .276 
-   .282 

+  .049 
+  .049 
+  .049 
+  .049 
+  .050 
+  .050 

+  -003 
+  .003 
+  .003 
+  .003 
+  .003 
+  .003 

No.  5787.  Br  2997    7"»o 

1900 

1905 
1910 

1915 
1920 

'925 

h    m       s 
22  21  41.24 

21    19.49 

20  57-39 

20    34.92 

20  12.  18 
19  48.90 

s 

-  4.316 

-  4.385 

-  4.456 
-  4.528 

—   4.602 

-  4.677 

-   1*383 
-   1.407 

-   i-43i 
-   1.456 
-   1.482 
—   1.508 

+.038 
+.038 
+  .038 
+  .039 
+  .039 
+  .039 

s 
+  .004 

+  .004 
+  .004 
+  .004 
+  .004 
+  .004 

o      /          tt 

+  85  43     8.40 
44  39.60 
46  10.72 

47  41-78 
49  12.76 
51  43-68 

// 
+  18.246 
+  18.232 
+  18.218 
+  18.204 
+  18.190 
+  18.176 

tt 

-  .267 
—  .272 
—  .278 
-  .283 
—  .289 
-  -294 

it 

+  .015 
+  .015 
+  .015 
+  .015 
+  .016 
+  .016 

tt 

+  .002 
+  .002 
+  .002 
+  .OO2 
+  .002 
+  .OO2 

258  EPHEMERIDES   OF   POLAR   STARS.     NORTH. 

No.  5927.  Br  3058    5*1    36  H  Cephei 


a 

A.  V. 

S.  V. 

t* 

IOO  A/x 

1 

A.  V. 

S.  V. 

ff 

IOO   A/i' 

1900 

1925 

h    m        s 
22  55    12.84 
55     4-2? 

-     -3o2 
-     -384 

s 

-     -3!7 
-     -339 

+  "063 

4-  .064 

5 

4-  .005 
4-  .005 

O          /              // 

4-83  48  39.81 
56  41-78 

// 

4-19.281 
4-19.276 

// 

-.018 
—  .021 

II 

4-  .030 
4-  .03  1 

it 

4-  .003 
4-  .003 

No.  6056.   Br  3147    5*9    39  H  Cephei 

1900 

1905 
1910 

1915 
1920 

1925 

h    m        s 
23   27  48.78 
27  48.04 
27  47.16 
27  46.13 

2?  44-94 
27  43.60 

s 

-    -133 
-    .162 
-    .191 

—        .221 

-        .253 
-        .285 

-      S566 

~  -s!2 

-     -50 
—     .612 

-     .628 
-     -645 

4-  .095 
4-  .096 
4-  .097 
4-  .097 
+  .098 
4-  .098 

s 
4-  .016 
4-  .016 
4-  .016 
4-  .016 
4-  .017 
4-  .017 

0        /                // 

4-86  45  20.98 
47    0.32 
48  39-65 
50  18.98 

51  58-3i 
53  37-63 

// 

4-  19.868 
4-  19.867 
4-19.866 
4-  19.866 
4-  19-865 
4-  19.864 

it 

—  .009 
—  .010 
—  .010 
—  .on 
—  .012 

—  .012 

n 

4-  .018 
4-  .018 
4-  .018 
4-  .018 
4-  .018 
4-  .018 

// 

4-  .002 

4-.OO2 

4-  .002 

4-.OO2 

4-  .002 
4-  .002 

No.  6161.   Br  3194    7^0 

1900 

1905 
1910 

1915 
1920 

1925 

h    m        s 
23  54  46.22 
54  59-55 
55  ".96 
55  26.46 
55  40.04 
55  53-71 

s 
4-    2-657 
4-   2.674 
+   2.690 
4-   2.708 
4-   2.725 
+   2-743 

+     -325 
+     .332 
+     .340 
+     .348 
+     -355 
4-     .364 

+  .038 
4-  .038 
4-  .039 
4-  .039 
4-  .039 
4-  .039 

s 
4-  .005 
4-  .006 
4-  .006 
4-  .006 
4-  .006 
4-  .006 

O        /                II 

4-86    8  58.88 
10  39.11 
12  19.33 
13  59-56 
IS  39-79 

17    20.02 

it 
4-  20.046 
4-  20.046 
4-  20.046 
4-  20.046 
4-  20.046 
4-  20.045 

it 

4-.ooo 
4-  .000 
—  .000 

—  .001 

—  .001 

—  .001 

4-  .004 
4-  .004 
4-  .004 
4-.  004 
4-  .004 
4-  .004 

4-  .000 
4-.ooo 
4-  .000 
4-.ooo 
4-  .000 
4-.ooo 

EPHEMERIDES  OF  POLAR   STARS.     SOUTH. 
No.  32    L  23    sfg    2  G  Octantis 

1900 

1905 
1910 

1915 
1920 

i925 

h    m        s 
°    9  31-59 
9  43-32 
9  55-01 
10    6.64 
10  18.23 
10  29.77 

+   2-351 
4-   2.342 

+   2.332 
4-   2.322 
+   2.313 
+   2.304 

S 
—        .200 
-        -197 
~        -193 
-        .189 
-        .186 
-        .182 

s 

-.007 
-.007 
-.007 
-.007 
-.007 
-.007 

s 
4-  .00  1 
4-.OOI 
4-  .001 
4-.OOI 
4-  .001 
4-.OOI 

o     /          // 

-85  33     1-98 
31  21.53 
29  41.11 
28    0.68 
26  20.26 
24  39.84 

II 

4-  20.089 
4-  20.087 
+  20.086 
4-  20.085 
+  20.084 
4-  20.083 

// 

-.023 
-.023 
-.023 

—  .024 
—  .024 
—  .024 

it 

4-  .059 

4-  .059 

+  •059 
4-  .059 
4-  .059 
+  •059 

// 

.000 
.000 
.000 
.000 

.000 

.000 

No.  47.  o  Octantis    7^5 

1900 

1905 
1910 

1915 
1920 

1925 

h    m        s 
o  12  29.84 
12  26.29 

12    23.28 
12    20.79 
12    18.78 
12    17.14 

-      '768 
-     -654 
-     -548 
-     -45° 
-     .358 
-     .272 

+     2.376 
4-     2.201 

4-   2.040 
4-   1.900 
4-    1.772 
4-    1.651 

s 

4-  .019 
4-  .018 
4-  018 
4-  .018 
4-  .01  7 
4-  .01  7 

s 
—  .010 
—  .009 
—  .009 
-.008 
-.008 
-.007 

-88  55     8.38 

53  28-27 
51  48.16 
50    8.05 
48  27.95 
46  47.84 

// 

4-  20.02  2 
4-  20.022 
4-  20.022 

4-20.021 
4-  2O.O2I 
4-20.021 

—  .002 

-.003 

—  .004 

-.005 
-.006 

—  .006 

it 

4-  .005 
4-  .005 
+  .005 
4-  .005 
+  .005 
4-  .005 

II 

.000 
.000 
.000 
.000 
.000 
.000 

No.  395.  L  576    6^1    3  G  Octantis 

1900 
1925 

h    m        s 
I   40  33.84 
39  49-73 

-    1-830 
—    1.701 

+     -533 
+     .504 

s 
4-  .069 
+  .068 

s 
—  .002 

—  .002 

0        /                // 

—  83    29       2.12 
21    24.67 

It 

4-  18.286 

4-18.311 

It 

4-.ioi 
4-  .093 

It 

+  .138 
+  .137 

// 

—  .004 

—  .004 

No.  406.   L  634    5"J8 

1900 

1905 
1910 

1915 
1920 

1925 

h    m        s 
I  43     8.09 
42  48-53 
42   29.26 
42   10.27 
41   SI'S6 
41   33-13 

a 
~    3-942 
-    3-883 
-    3.826 

-  3-77° 
-  3-714 
-  3-659 

1 
4-   1.172 
4-   1.154 

+   LI37 
4-   1.  120 
+  1.104 
+  1.087 

s 

4-  .019 
4-  .019 
4-  .019 
4-  .019 
4-  .019 
4-  .019 

S 

—  .001 

—  .001 
—  .001 

—  .001 
—  .001 
—  .001 

e     /           n 

—  85  16  29.20 

14  58.77 
13  28.28 

ii  57-73 
10  27.13 

8  56-47 

4-  18.080 
4-  18.092 
4-18.104 
4-18.115 
4-18.127 
4-18.138 

It 

[+.241 

+  .237 
+  .233 
+  .  228 
4-.  224 
4-.  220 

it 

4-  .029 
4-  .029 
4-  .029 
4-  .029 
4-  .029 
4-  .029 

// 

—  .001 

—  .001 

—  .001 

—  .001 

—  .001 
—  .001 

No.  1096.  L  1707    7«i    12  G  Mensae 

1900 
1925 

h    m       s 
4  34  28.77 
31  29.27 

s 
—    7.246 
-    7.114 

s 

+  .527 

+    -532 

s 

—  .Oil 

—  .on 

s 
4-.OOI 
4--OOI 

O       /              // 

-83     6  55.63 
3  49-65 

// 

+   7-3I7 
4-   7-561 

n 
4-  .982 
+  •959 

it 

4-  .009 
4-  .010 

// 

4-  .002 

4-  .002 

EPHEMERIDES  OF  POLAR   STARS. 
No.  1547.   L  2512    7^1    6  G  Octantis 


SOUTH. 


259 


a 

A.  V. 

S.  V. 

M 

ICO  Ait 

1 

A.  V. 

S.  V. 

rf 

ioo  &n' 

1900 

1905 

1910 

i9'5 
1920 

1925 

h    m        s 
6     6     9.51 
4  50.82 
3  32." 
2  13-38 
o  54.62 

•  5  59  35-89 

s 
-15-735 
-'5-741 
-15-745 
-15-747 
-I5-748 
-I5-748 

s 

-     -"7 
—     .000 
—     -063 
—     .036 
-     .009 
+     .019 

s 
—  .026 
—  .026 
—  .026 
—  .026 
—  .026 
—  .026 

s 
—  .000 
—  .OOO 

+  .OOO 

+  .000 

+  .000 
+  .000 

or           rr 

-85  55  52-97 
55  55-37 
55  57-20 
55  58-45 
55  59-12 
55  59-23 

// 

-     .538 
-     -423 
-     .308 

-     -193 

—     .078 

+     -°37 

rr 

+  2.297 
+  2.208 
+  2.299 
+  2.300 
+  2.300 
+  2.299 

rr 

+  .OOI 
+  .OOI 
+  .001 
+  .OO2 
+  .OO2 
+  .OO2 

M 
+  .004 
+  .004 
+  .004 
+  .004 
+  .004 
+  .004 

No.  1947.  L  3274    6^7    7  G  Octantis 

1000 

1905 
1910 

1915 
1920 

1925 

h    m        s 
7    22       1.53 
20    22.13 

18  42.07 
17     1.36 
15  20.02 
13  38-04 

s 

-19.815 
-  19.946 
-20.077 

—  20.206 

-20.333 

—  20.458 

s 

—  2.648 

—    2.621 

-  2.592 

—    2.561 

-  2.529 

-   2-495 

s 

+  .003 
+  .003 
+  .003 
+  .003 
+  .003 
+  .003 

s 

+  .OO2 
+  .OO2 
+  .002 
+  .OO2 
+  .OO2 
+  .002 

Or                 // 

—  86  52  11.36 
S2  46-10 
53  20.15 
53  53-53 
54  26.19 
54  58-16 

// 

-   7.015 
-  6.879 
-  6.742 
—   6.604 
—  6.464 
-  6-323 

+  2.709 

+  2-734 
+  2-759 
+  2.784 
+  2.809 
+  2-833 

// 

+  .007 
+  .007 
+  .007 
+  .007 
+  .007 
+  .007 

// 
.000 
.000 

.000 

.000 
.000 

.000 

No.  2102.  L  3911    8"Ji     A  Octantis 

1900 

1905 
1910 

1915 
1920 

1925 

h    m         s 

7  53     1-56 
49  18.22 
45  30.69 
4i  38.97 
37  43-io 
33  43-!4 

s 

—  44.246 
-45.089 
-45.928 

—  46.761 

-47-585 
-48.399 

-  16*886 
—  16.824 
-16.724 
-16.581 
—  16.390 
—  16.151 

s 

—  .043 
-.043 
—  .043 
—  .043 

-.043 
-•043 

s 
+  .OOO 
+  .001 
+  .002 
+  .OO2 
+  .003 
+  •003 

or           tr 

—  88  34  24.83 
35  "-52 
35  56.75 
36  40.47 
37  22.66 
38    3-26 

// 

-  9.481 

-  9-193 
-  8.896 
-  8.592 
-  8.280 
-   7.960 

// 

+  5.690 
.  +  5.848 
+  6.008 
+  6.168 
+  6.327 
+  6.485 

rr 
+  .009 
+  .009 
+  .OIO 
+  .OIO 
+  .010 
+  .010 

+  .006 
+  .006 

+  .006 
+  .006 
+  .006 
+  .006 

No.  2486.   J  Octantis    5"?$ 

1900 

1905 
1910 

1915 
1920 

1925 

h    m        s 
9  II   14.45 

1°  34-95 
9  55-°3 
9  I4-70 
8  33-94 
7  52.77 

-  7.860 
-  7.942 
—  8.025 
-  8.108 
-  8.193 
-  8.278 

3 
—        .629 

—        .645 
-        .663 
-        .680 
-        .698 
-        ^IS 

s 
—  .101 
—  .101 

—  .102 
—  .102 
—  .IDS 
-.103 

S 

—  .007 
—  .007 
—  .007 
—  .006 

-.006 
-.006 

o     /          r// 

-85  15  46.89 
17   0.89 

18  14.69 
19  28.30 
20  41.69 

21    54.88 

// 

—  14.820 
-  14.780 
—  14.741 
—  14.699 
—  14.658 
-14.617 

// 

+     .786 
+    .796 
+    .807 
+    .818 
+    .829 
+    .840 

rr 

+  .°33 
+  .034 

+  •034 
+  •035 
+  .036 
+  .036 

// 

+  .OIO 
+  .010 
+  .OIO 
+  .OIO 
+  .OIO 
+  .OIO 

No.  2715.   L  4342    7^6 

1900 

1905 
1910 

1915 

1920 

1925 

h    m         s 
10    8  41.07 
8     5-96 
7  30-25 
6  53-93 
6  16.99 

5  39-43 

3 
—     6.964 
-     7.082 
—     7-202 
-     7.32S 

-  7-45° 
-  7.578 

-     2.338 
-     2.383 
-     2.430 

-    2.479 
-    2.528 
-    2.578 

-.048 
—  .048 
-.049 
-.049 
-.049 
—  .050 

s 

-.006 
-.007 
-.007 

—  .007 

-.007 
-.007 

O        /                 // 

-86  25  32.65 

27       1.22 
28    29.67 

29  57-99 
31  26.18 
32  54.23 

* 
-17.726 
-17.702 
-17.677 
-17.651 
-17.625 
-I7.S98 

ft 

+   -485 
+   -495 
+   -506 

+   -S'7 
+  .528 
+   .540 

// 

+  .002 
+  .002 
+  .OO2 
+  .OO2 
+  .003 
+  .003 

rr 

+  .003 
+  .003 
+  .003 
+  .003 
+  .003 
+  .004 

No.  2849.  L  4510    7*?i   10  G  Octantis 

1900 

1905 
1910 

"9i5 
1920 

1925 

h     m        s 
10  36  55.16 

36  39-76 
36   24.09 
36     8.14 

35  Si-9° 
35  35-38 

S 

-  3.053 

-  3-Jo7 
—  3.162 

-  3-219 
-  3-276 
-  3-334 

s 
—    1.078 
-    1.097 
—   1.116 
-   1.136 
—   1.156 
—   1.176 

s 
—  .004 
—  .004 
—  .004 
—  .004 
—  .004 

-.004 

s 
—  .001 

—  .001 

—  .001 
—  .001 
—  .001 

—  .001 

Ot               // 

-85  34  20.94 
35  54-71 
37  28.43 
39     2.12 
40  35-76 
42     9-35 

// 

-18.758 
-18.750 
-18.741 
-18.733 
-18.723 
-18.714 

// 

+   .165 
+  .169 

+  -173 
+  .176 
+  .180 
+  -183 

// 

-.014 

—  .014 
—  .014 
—  .014 
—  .014 
—  .014 

.OOO 
.OOO 

.OOO 
.OOO 
.OOO 
.OOO 

No.  2944.   i]  Octantis    6*4 

1900 
1925 

h     m        s 
II      0      I.l8 
10  59  52.86 

s 

-    .291 

-  .376 

s 

-     -33° 
-     -354 

3 
—  .042 
—  .043 

s 

-.004 

—  .004 

0         /               // 

-84    3  21.32 
ii  25.71 

// 

-19-378 
-19-373 

rr 

+    .021 
+     .024 

rr 

—  .014 
—  .014 

n 

+  .OO2 
+  .002 

2<5o  EPHEMERIDES  OF  POLAR   STARS. 

Ho.  3144.  L  4991    6*Jo    12  G  Octantis,  h  4490    9"  25"  146° 


SOUTH. 


a 

A.V. 

S.  V. 

M 

too  A/i 

s 

A.V. 

S.  V. 

M' 

loo  A/t' 

1900 

1905 

1910 

1915 

1920 

1925 

h     m       s 
II   57   18.87 
57  33-io 
57  47-42 
58     i.  80 
58  16.27 
58  30-81 

+   2*839 

+   2.854 
+   2.870 
+   2.885 
+  2.901 
+  2.917 

+     .296 
+     -301 
+     .306 
+     -3" 
+     -317 
+     -322 

s 

-.051 
-.051 
-.052 
-.052 
-.052 
-.052 

s 
—  .006 
—  .006 
-.006 
—  .006 
—  .006 
—  .006 

o        /         // 

-85     4  29.70 

6     9-93 
7  50.16 

9  30.39 
ii  10.62 

12   50.85 

// 

—  20.047 
—  20.046 
—  20.046 
—  20.046 
—  20.046 
—  20.045 

// 

+  .004 
+  .004 
+    .004 
+  -005 
+  .005 
+  .006 

tt 
—  .001 
—  .001 

—  .001 
—  .001 
—  .001 
—  .001 

it 

+  .000 

+  .000 

+  .000 

+  .000 

—  .000 
—  .000 

Ho.  3185.  Brisb  3962    6^9    13  G  Octantis 

1900 

1905 
1910 

1915 
1920 

1925 

h     m       s 
12     9  31.46 
9  54.08 
IO  17.11 
10  40.55 
ii     4.41 
ii  28.73 

+  4-486 
+  4-564 
+  4-645 
+  4-73° 
+  4.818 
+  4-910 

s 
+   J-534 
+   1-596 
+   i.  660 
+   1.728 
+   1.800 
+   1.877 

s 
—  .072 

-.073 
-.074 

-•075 

—  .076 

-.077 

s 
—  .019 
—  .019 
—  .020 
—  .020 

—  .021 

—  .O2I 

o      /          // 

-87  51  33-64 
53  13-78 
54  53-91 
S6  34-04 
58  14.16 
59  54-26 

• 

—  20.030 
—  20.028 
—  20.026 
—  20.024 
—  20.022 

—  20.020 

tt 

+   -035 
+  -037 
+   -039 
+   .040 
+  .042 
+  .044 

// 
.000 

.000 

.000 

.000 

.000 
—  .000 

.000 
.000 
.000 
—  .001 

—  .001 

—  .001 

Ho.  3225.  L  5107    6^7    14  G  Octantis 

1900 

I005 
1910 

!9!5 

1920 

1925 

h     m       s 
12   17  37.00 

17  59-04 
18  21.25 
18  43-66 
19    6.25 
19  29.05 

+  4^88 
+  4-425 
+  4.462 
+  4-50° 
+  4-538 
+  4-578 

s 

+    .720 
+     -734 
+     .748 
+     .762 

+     -777 
+     .792 

s 
—  .016 
—  .016 
—  .016 
—  .016 
—  .016 
—  .016 

S 
—  .002 
—  .OO2 
—  .002 
—  .OO2 
—  .002 
—  .002 

O          /               ft 

-85  35  45-32 
37  25.28 
39    5-22 
40  45.16 
42  25.07 
44    4-97 

// 

-  19-994 
-19.991 
-  19.988 
-  19.985 
—  19.982 
-19.978 

ft 

+     -057 
+     -059 
+     .061 
+     .062 
+     -063 
+     .064 

tt 

—  .006 
—  .006 
—  .006 

-.006 
-.006 
-.006 

// 

.000 

.000 

.000 
.000 

.000 

.000 

Ho.  3325.  1,5235    7*1 

1900 

1905 
1910 

1915 
1920 

1925 

h     m       s 
12  40  59.58 
42  49.16 
44  46.75 
46  53-35 
49  10.08 

51  38.27 

s 
+  21.172 

+  22.689 
+24-388 

+  26.292 

+28.443 
+30.881 

+  28.711 
+  32.081 
+  35-908 
+  40.441 
+  45-730 
+  51.976 

s 

-.072 

-.074 
-.077 
-.079 
-.082 

-.085 

B 
-•045 
-.048 
-.051 

-•054 
-.058 
-.061 

0        /              ft 

—  89  15     1.08 
16  39.70 
18  18.16 
19  56.45 
21  34-54 
23  12.41 

// 

-I9.738 
-19.709 
-19.674 
-19-638 
-19.598 

-I9.550 

// 

+     ^56 
+     .620 
+     .698 
+     .786 
+     .889 
+  I.OII 

ft 
—  .on 
—  .on 
—  .on 
—  .on 
—  .on 

—  .012 

tl 

—  .002 
—  .002 

—  .002 

-.003 
-.003 
-.003 

Ho.  3340.  t.  Octantis    5^5 

1900 
1925 

h     m       s 
12  44  27.00 
46  SS.S6 

+  5S83i 
+   6.056 

+    *866 
+     -933 

B 
+  .044 
+  .045 

S 
+  .004 
+  .004 

Of             ft 

-84  34  48-87 
42  S9-83 

tt 

—  I9.66l 
-I9.6I7 

H 

+     -173 
+     .100 

tt 

+  .OIO 
+  .010 

// 

+  .OOI 
+  .001 

No.  3473.  L  5452    7«4    17  G  Octantis 

1900 
1905 
1910 

1915 
1920 

1925 

h     m       s 
13   19  43.02 
20  26.31 

21    IO.OO 
21    54.09 
22    38.60 
23    23.55 

+  8^618 
+  8.698 
+  8.778 
+  8.861 
+   8.944 
+   9.029 

+   1*580 
+   i.  606 
+   1.632 
+   1.658 
+   1.684 
+   1.711 

S 

—  .004 
—  .004 
—  .004 
—  .004 
—  .004 
—  .004 

S 
—  .000 

—  .000 

—  .000 

—  .000 

—  .000 

—  .000 

Of             tf 

-85  18  26.18 

20      0.39 
21  34-49 
23     8.48 

24  42-35 
26  16.  ii 

// 

-18.853 
-18.831 
-  18.809 
-18.786 
-  18.763 
-  18.739 

ff 
+     .436 

+   -444 
+   -452 
+    .460 
+    .468 
+    .476 

-.007 
-.007 

—  .007 

-.007 
-.007 
-.007 

.000 
.000 
.000 
.000 
.000 
.000 

No.  3493.  K  Octantis    5*J7 

1900 

1905 
1910 

1915 
1920 

1925 

h     m        3 
13   24  42.12 
25   26.51 
26   11.32 

26  56.53 
27  42.16 
28   28.22 

+  8S838 
+  8.920 
+  9.001 
+  9-085 
+  9.170 
+  9-256 

+   i.  606 
+   1-631 
+   1.656 
+   1.682 
+   1.708 
+   1-734 

s 

-.073 
-•073 
-•074 
-.074 
-.074 
-•075 

s 

-.007 
-.007 
-.007 
-.007 

—  .007 

-.007 

Of             ff 

—  85  16  24.65 
17  58.18 
19  31-58 

21       4.87 

aa  38.03 
24  11.07 

// 

-18.717 

—  18.694 
—  18.669 
-  18.645 
—  18.620 
-18.595 

// 

+  .469 

+  .478 
+  .486 

+   -494 
+   -503 
+   .512 

tt 

—  .024 
—  .024 
—  .024 

-.025 
-.025 
—  .026 

tt 

—  .004 
—  .004 
—  .004 
—  .004 
—  .004 
—  .004 

Ho.  3661.   8  Octantis    4«*i 

1900 
1925 

h    jm       s 
14   10  51.70 
14  42.18 

+  9°o87 
+  9-353 

s 

+  1-043 
+  1.  086 

B 
-.052 
-.052 

s 

-.003 
-.003 

0        /              '/ 

—  83    12    35-12 
19    34.82 

tf 

-  16.880 
-  16.696 

tt 

+   -719 
+  -759 

// 

-.013 

—  .014 

tf 

—  .004 
—  .004 

EPHEMERIDES   OF  POLAR   STARS.     SOUTH. 
No.  3760.  L  5823    68    2^0  G  Octantis  z 


26l 


a 

A.  V. 

S.  V. 

/* 

ioo  A/i 

s 

A.  V. 

S.  V. 

M' 

IOO  A/i' 

1900 
1905 

1910 

1915 

1920 
1925 

h     m       s 
14  38  59-88 
41     3.80 
43     9-96 
45   18.41 
47  29.18 
49  42.34 

s 
+  24.564 
+  25.007 

+  25-459 
+  25.920 
+  26.392 
+  26.872 

+  8*762 
+  8.948 
+  9-137 
+  9-328 
+  9-520 
+  9-7I4 

s 

-.180 
-.181 
-.182 
-.182 

-.183 

-.184 

s 

-.017 

—  .016 

-.015 
-.015 

—  .014 

-.013 

0      /               ft 

—  87  44  30.62 
45  47-73 
47     4-26 
48  20.18 
49  35-48 
50  SO-I3 

// 

—  15.480 

-15-364 
-15.246 
-15-123 
-  14.997 
-14.867 

+  2.279 
+  2.346 
+  2.414 
+  2.484 

+  2.557 
+  2.632 

It 

—  .067 
-.068 
—  .069 
—  .070 
—  .070 

-.071 

a 
-.017 
-.017 
-.017 
-.018 
-.018 
—  .018 

No.  3806.  a  Octantis    6«o 

1900 
1925 

h     m        s 
14  49  22.12 
54  33-S1 

s 

+  12.256 
+  12.657 

+   1*578 
+   1.632 

s 

+  .012 
+  .013 

s 

+  .003 
+  .003 

0        /                 It 

-84  23  40.36 
29  48.09 

ft 

-  14-863 
~I4-553 

+  1.  211 

+  1.281 

It 
—  .046 
—  .046 

+  .001 
+  .OOI 

No.  3924.  p  Octantis    5^8 

1900 
1925 

h     m        s 
15    20    II.S5 

25  44-20 

s 

+  13-130 
+  13-483 

s 

+   1.404 
+  1-425 

+  .089 
+  .089 

s 
+  .OO2 
+  .001 

0        /                 // 

-84     7  54-79 
13     9.88 

-12.792 
-12.414 

+  1.483 

+  !-552 

ft 

+  .081 
+  .083 

+  .OIO 
+  .010 

No.  4106.  L  6545    6"?3    26  G  Octantis 

1900 

1905 
1910 

1915 
1920 

1925 

h     m        s 
16  23  34.61 
25    21.62 
27     9.20 
28  57-38 
30  46.11 
32  35-42 

s 

+  21.343 

+  21.460 

+  21.576 

+  21.691 

+  21.805 
+  21.917 

s 

+  2.353 
+  2.332 
+  2.311 
+  2.288 

+    2.264 

+  2.238 

S 

+  .007 
+  .007 
+  .007 
+  .007 
+  .007 
+  .007 

s 

+  .OOI 
+  .001 
+  .OOI 

+  .000 
+  .000 

+  .000 

O      /               // 

-86  10  42.86 
ii  23.44 
12     3.31 

12    42.46 

13  20.88 
J3  58.55 

// 

—  8.189 
-  8.046 
-  7.902 
-  7-756 
—  7.610 
-  7.462 

It 

+  2.845 
+  2.870 
+  2.895 
+  2.920 

+  2.945 
+  2.970 

H 
—  .OOI 
—  .OOI 
—  .001 
—  .001 
—  .OOI 
—  .OOI 

+  .OOI 
+  .OOI 
+  .001 
+  .001 
+  .OOI 
+  .001 

No.  4456.  L  7078    6™6    29  G  Octantis 

1900 

1905 
1910 

1915 
1920 

1925 

h     m       s 
17   29  59.64 
3'  33-44 
33     7-37 
34  41.42 

3°  15-59 
37  49.86 

+  18?747 

+18.773 
+  18.798 
+  18.822 
+  18.844 
+  18.865 

+  "538 
+   .512 

+    .486 
+    .460 

+      -434 
+      .408 

s 

-.026 
-.025 
-.025 

—  .024 
—  .024 

-.023 

s 

+  .011 
+  .011 
+  .OII 
+  .OI2 
+  .012 
+  .OI2 

o     /           // 

-85  10  34.13 
10  47-54 
ii     0.26 
ii  12.30 
ii  23.66 
ii  34-34 

-  2.748 
—  2.613 

-   2.477 
-   2.341 
—   2.205 
-   2.068 

+  2.707 
+  2.713 
+  2.718 
+  2.724 
+  2.728 
+  2-733 

It 

-.131 
-.131 
-.131 
-.132 
-.132 
-.132 

// 

—  .004 
—  .004 
—  .004 
—  .004 
—  .004 
—  .004 

No.  4550.  x  Octantis    5»?4 

1900 

1905 
1910 

1915 
1920 

1925 

h     m        3 
17  56     4.68 
59     3-40 
18     2     2.16 
5     0.92 
7  59-6o 
10  58.16 

+35.738 
+35-750 

+  35-753 
+  35-745 
+  3S-726 
+  35-697 

+      -369 
+      -157 
~      -055 
-      .266 

-     -477 
-     .687 

s 
—  .096 
—  .094 

—  .091 

-.088 
-.086 

-.083 

s 
+  .050 
+  •051 
+  .051 
+  .052 
+  .052 

+  •053 

O       /                 // 

-87  39  5!-49 
39  53-21 
39  53-63 
39  52-75 
39  50-58 
39  47-io 

n 

-     -474 
-      -215 
+     .046 
+      -306 
+      -565 
+      -825 

+  5-197 

+  5.200 
+  5.200 
+  5-197 
+  5-193 
+  5.186 

ft 

--I3I 
-.132 
-.132 
-•'33 
-•134 
-•134 

It 

—  .014 
—  .014 

-.013 
-.013 

—  .012 
—  .012 

No.  4854.  <r  Octantis    5*5 

1900 

1905 
1910 

1915 
1920 

i925 

h     m        s 
18  59  43-71 
19    8  10.87 
16  27.32 
24  32-25 
32  24.91 
40    4-75 

s 

+  102.437 
+  100.393 
+  98.164 

+  95-778 
+  93-268 

+  90.661 

-38.819 
-42.837 
-46.257 
—  49.058 
-51.276 
-52.933 

s 

+  .109 
+  .109 
+  .109 
+  .109 
+  .109 
+  .109 

s 
+  .OI2 
+  .006 
—  .OOO 
-.006 
—  .Oil 

—  .016 

O       /                 // 

-89  15   16.63 
14  49.06 
14  17.99 

'3  43-53 
13     5-82 
12   24.98 

// 

+  5-157 
+   5.868 

+  6.556 
+   7.221 
+   7.860 
+  8.472 

// 

+  14-445 
+  14.008 

+  13-533 
+  13-037 
+  12.516 
+  11.987 

it 

—  .009 
—  .008 
-.007 
-.007 
—  .006 
-.005 

It 

+  .015 
+  .015 
+  .015 
+  .015 
+  .015 
+  .014 

No.  5564.    X  Octantis    5^5    h  5278    7^7  2'/8  75° 

1900 
1925 

h     m       s 
21  35  36.11 
39  34-92 

+  9*685 

+  9.421 

s 
—    1.076 
-    1-037 

s 

+  .030 
+  .030 

s 
—  .001 

—  .OOI 

0        /                 // 

-83  10  43.43 
3  56.45 

It 

+  16.178 
+  16.380 

It 

+  .828 

+  .785 

—  .020 
—  .020 

// 

+  .003 

+  .O02 

262  EPHEMERIDES  OF  POLAR  STARS.    SOUTH. 

No.  5576.   L  6460    6*7    54  G  Octantis  B 


a 

A.  V. 

S.  V. 

A» 

JOO  A/J 

s 

A.  V. 

S.  V. 

tf 

loo  A/t' 

h    m        s 

s 

S 

S 

s 

o     /            // 

// 

// 

it 

tt 

1900 

21  37  38.82 

+  68.391 

-88.544 

+  .017 

+  .097 

-89  19    3.45 

+  16.263 

+  5-799 

—  .041 

+  .OOI 

1905 

43  10.00 

+  64.140 

-81.593 

+  .022 

+  .082 

17  41.44 

+  I6.537 

+  5-250 

—  .041 

+  .001 

1910 

48  20.77 

+  60.222 

-75-178 

+  .025 

+  •073 

16  18.12 

+  16.787 

+  4-765 

—  .041 

+  .OOI 

1913 

S3  i2-74 

+56.613 

—  69.284 

+  .029 

+  -063 

14  53.60 

+  17.015 

+  4-330 

—  .041 

+  .002 

1920 

57  47-39 

+53-287 

-63-875 

+  .032 

+  .054 

13  28.00 

+  17.221 

+  3-943 

—  .041 

+  .OO2 

1925 

22       2      6.04 

+50.218 

-58-923 

+  •034 

+•047 

12        1.42 

+  17.409 

+  3-587 

—  .041 

+  .002 

No.  5750.    u  Octantis    6^0 

h    m        s 

s 

s 

S 

s 

01                 It 

it 

„ 

tr 

„ 

1900 

22    12    34.98 

+  12.836 

—  3.200 

—  .O4O 

+  .000 

-86  28  33.98 

+  17.952 

+   .835 

+  .067 

—  .003 

!9°S 

13    38-76 

+  12.677 

-  3.140 

—  .O4O 

+  .OOI 

27    4.12 

+  !7-993 

+   .817 

+  .067 

—  .003 

1910 

14    41.76 

+  12.522 

-  3.081 

—  .040 

+  .001 

25  34.05 

+  18.034 

+   -799 

+  .067 

—  .003 

r9!5 

is  43-98 

+  12.369 

-  3-024 

—  .040 

+  .001 

24     3-78 

+  18.074 

+   .782 

+  .067 

-.003 

1920 

16  45-45 

+  12.219 

-  2.969 

—  .O4O 

+  .OOI 

22    33.32 

+  18.112 

+   -765 

+  .066 

—  .003 

1925 

17  46.18 

+  12.072 

-  2.913 

—  .040 

+  .001 

21       2.66 

+  18.149 

+  -749 

+  .066 

-.003 

No.  5994.  T  Octantis    5"*7 

h    m        s 

s 

5 

S 

s 

o     /            // 

„ 

// 

„ 

// 

1900 

23  13    9-35 

+  10.979 

-     S.236 

+  .015 

—  .006 

-88     i  52.93 

+  19.643 

+   -317 

+  .013 

.OOO 

1905 

14    3.60 

+  10.724 

-     5-028 

+  .015 

-.005 

o  14.68 

+  19.658 

+   -304 

+  .013 

.OOO 

1910 

14  56-59 

+  10.476 

-     4.830 

+  .014 

-.005 

-87  58  36.36 

+  19-673 

+   .291 

+  .013 

.OOO 

J9!S 

IS  48.38 

+  10.240 

-     4-643 

+  .014 

-.005 

56  57-96 

+  19.687 

+  -279 

+  .013 

.OOO 

1920 

16  39.01 

+  10.012 

-     4-465 

+  .014 

—  .005 

55  19-49 

+  19.701 

+  .267 

+  .013 

.OOO 

1925 

17  28.51 

+  9-793 

-     4.296 

+  .014 

-.005 

53  40.94 

+  19.714 

+  -255 

+  .013 

.OOO 

APPENDIX   II. 

NOTES   TO    THE    CATALOGUE. 

PERIODIC    PROPER-MOTION,    ETC. 


APPENDIX  II. 


No.  3.  Bradley  3210  m. 

This  star  is  S  3062  and  is  a  binary.  See  (Stellar  Systems)  assigned  a  period  of  104.6  years. 
His  orbit  is  employed  here  in  making  further  deductions.  The  adopted  magnitudes  of  the  com- 
ponents are  6""6  and  7*!I6;  the  distance  is  always  less  than  2".  The  majority  of  the  observers  appear 
to  have  taken  the  star  as  one  mass;  though  it  is  not  always  easy  to  determine  what  has  been  done. 
The  weight  of  the  meridian-observations  is  totally  insufficient  to  determine  the  relative  masses  in 
this  case,  because  of  this  uncertainty  as  to  the  pointing,  which  may  have  been  on  the  principal  star 
in  one  case,  on  the  general  mass  of  light  in  another,  and  on  the  mean  in  still  another.  From  ex- 
perience with  similar  systems  (see  Introduction),  it  is  very  probable  that  the  mass  of  the  brighter 
star  is  not  much  greater  than  that  of  the  fainter  star.  Accordingly,  it  has  been  assumed  that  the 
masses  of  the  two  stars  are  equal.  Thus  the  catalogue-position  refers  to  the  mean  between  the 
two  stars. 

The  following  table  exhibits  the  amounts  which  must  be  added  to  the  catalogue-position,  com- 
puted for  the  respective  years,  in  order  to  get  the  position  of  the  brighter  star.  Subtraction  of  the 
same  quantities  is  supposed  to  give  the  position  of  the  fainter  star.  Obviously,  the  predicted 
positions  of  this  star  are  liable  to  a  material  uncertainty  beyond  that  which  would  in  ordinary  cases 
attach  to  the  weight  of  observations. 

To  get  position  of  brighter  star  add  to  catalogue-position  of  mean.  (Adopted  period,  104.6 
years.) 


Date. 

Ao. 

AS. 

Date. 

Aa. 

AS. 

1820 

s 

+  .044 

n 

+.52 

1875 

s 

-.084 

n 

+  .36 

1825 

+  .051 

+  •35 

1880 

-.078 

+  .36 

1830 

+  .044 

+  .11 

1885 

-.068 

+  •47 

i83S 

+  .028 

-.14 

1890 

—  .056 

+  .56 

1840 

—  .002 

-•34 

1895 

-.043 

+  .63 

1845 

—  .036 

-•38 

1900 

—  .029 

+  .68 

1850 

—  .060 

-•34 

1905 

—  .014 

+  •71 

1855 

—  .076 

-.24 

1910 

+  .OO2 

+  .72 

1860 

-.084 

—  .12 

1915 

+  .018 

+  .69 

1865 

-.088 

—  .02 

1920 

+  •034 

+  .62 

1870 

-.088 

+  •13 

1925 

+  .045 

+  •5° 

No.  168.   i\  Cassiopeiae,  S  60. 

The  annual  parallax  of  this  star  may  be  taken  as  o'/iy.  This  is  a  binary  of  period  233.3  years, 
according  to  Lewis  (Mem.  R.A.S.,  Vol.  LVI,  p.  16).  Adopting  these  elements,  meridian-observa- 
tions in  R.  A.  indicate  that  the  center  of  gravity  is  at  the  distance  0.62  (wt.  60)  from  the  principal 
toward  the  fainter  star;  from  equations  in  declination  the  corresponding  quantity  is  0.29  (wt.  85). 
Accordingly,  the  ratio  of  the  masses  is  assumed  to  be  as  i.o  to  .76,  the  brighter  star  being  the  unit. 
This  result  is  very  uncertain,  however,  owing  to  the  interdependence  of  the  expressions  for  orbital 
and  proper  motions  respectively.  The  adopted  magnitudes  are  3"6  and  j^g.  The  position  in  the 
catalogue  is  given  for  the  adopted  center  of  gravity.  The  following  little  table  shows  the  quanti- 
ties which  must  be  added  to  this  catalogue-place  of  the  center  of  gravity  in  order  to  produce  the 
predicted  place  of  the  brighter  star.  If  these  quantities  be  multiplied  by  —1.33  and  added  to  the 
catalogue-place,  we  shall  have  the  predicted  positions  of  the  fainter  companion. 

264 


APPENDIX   H 
Position  of  brighter  star  minus  position  of  center  of  gravity. 


265 


Date. 

Aa. 

AS. 

Date. 

Aa. 

AS. 

1800 

-!362 

-1.78 

1885 

s 
-.018 

V 

+  2.19 

1810 

-•369 

-1.27 

1890 

+  .026 

+  2.16 

1820 

-•364 

-0.72 

1895 

+  .070 

+  2.04 

1830 

-•347 

-  -!5 

1900 

+  .IIO 

+  1.82 

1840 

-.316 

+  .42 

1905 

+  .144 

+  1.51 

1850 

-•273 

+  .98 

1910 

+  .170 

+  i.ii 

1860 

-.216 

+  1.49 

1915 

+  .186 

+  .64 

1870 

-.145 

+  1.90 

1920 

+  .190 

+  .14 

i8?S 

-.105 

+  2.05 

1925 

+.183 

-  -38 

1880 

—  .062 

+  2.15 

Nos.  376-377.  L  495.     3  G  Eridani,  p.  Dunlop  5. 

This  is  probably  a  binary  of  long  period,  though  the  material  of  observation  is,  as  yet,  insuffi- 
cient for  the  computation  of  a  reliable  orbit.    Under  the  circumstances,  no  very  marked  error  is 
likely  to  result  from  the  computation  of  position  and  motion  for  each  of  the  components  in  the 
usual  manner,  without  taking  into  account  possible  curvature  of  orbital  motion. 
No.  1732.     a  Cards  Majoris  (Sirius). 

The  annual  parallax  of  this  star  is  about  o'.'4-  The  catalogue-position  is  for  the  center  of  gravity. 
In  deriving  the  orbit  of  the  bright  star  about  this  center  of  gravity  the  orbit  of  the  faint  companion 
is  adopted  from  the  computation  of  Zwiers,  as  quoted  in  the  Bulletin  of  the  Lick  Observatory, 
No.  84,  thus: 

^  =  48.84  years       r=i894.09  6=0.588  a  =  7'.'s94 

o)=i47.89°  0  =  44.50°  ^=46.03°         log  ^,  =  0.86752 

The  ratio  of  the  masses  results  thus:  from  residuals  in  right-ascension,  .284  to  .716;  from 
residuals  in  declination,  .279  to  .721;  adopted,  .282  to  .718.  Or  calling  the  mass  of  the  bright 
star  i.o,  that  of  the  companion  becomes  .393.  Thus  the  mass  of  the  bright  star  is  only  about  two 
and  one-half  times  that  of  the  companion.  This  result  seems  to  be  entitled  to  confidence.  The 
following  table  gives  the  quantities  that  must  be  added  to  positions  computed  from  the  catalogue- 
place  and  motion  of  the  center  of  gravity  in  order  to  get  the  predicted  position  of  the  bright  star 
at  the  corresponding  dates.  In  order  to  get  the  corresponding  positions  of  the  faint  star,  multiply 
the  tabular  quantities  by  —  2.55  and  add  to  the  position  computed  for  the  center  of  gravity.  The 
nominal  epochs  and  probable  errors  for  this  star  are: 

in  R.  A.,  1871;  p.e.  at  epoch  ±'.'023;  at  1910  ±'.'05;  of  c.v.±"n; 

in  Decl.,  the  epoch  is  1869;  p.e.  at  epoch  ±"028;  at  1910,  ±"06;  of  c.v.  ±"13. 

But  the  p.e.  of  orbital  motion  adds  to  and  complicates  these  numbers  so  that  they  do  not  apply. 
They  simply  serve  to  indicate  the  weight  of  observation  which  this  star  has  received. 


266 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    IQOO 


Date. 

Aa. 

AS. 

Date. 

Aa. 

AS. 

1797.16 

1846 

8 

+  .047 

It 

+  .60 

1837.16 

1886 

s 
—  .076 

-1.85 

1798.16 
1799.16 
1800.  16 

1847 
1848 
1849 

+  .034 
+  .015 
-.007 

+  .89 
+  1.05 

+  I.I2 

1838.16 
1839.16 
1840.16 

1887 
1888 
1889 

—  .060 

-•043 
-.025 

-i-7S 
—  1.62 
-1.44 

1801.16 

1850 

—  .028 

+  I.I2 

1841.16 

1890 

-.005 

-1.23 

1802.16 

1851 

—  .048 

+  1.08 

1842.16 

1891 

+  .017 

-  -94 

1803.16 

1852 

-.066 

+  I.OI 

1843.16 

1892 

+  .°33 

-  .60 

1804.16 

1853 

-.083 

+  .92 

1844.16 

1893 

+  .050 

-  .06 

1805.16 

1854 

-.008 

+  .82 

1845.16 

1894 

+  .°53 

+  -27 

1806.16 

1855 

-•"3 

+  .70 

1846.16 

1895 

+  .045 

+  .63 

1807.16 

1856 

-.125 

+  .58 

1896 

+  .030 

+  .92 

1808.16 

1857 

-.138 

+  .45 

1897 

+  .011 

+  1.07 

1809.16 

1858 

-.148 

+  -32 

1898 

—  .on 

+  I.I2 

1810.16 

1859 

-.158 

+  .18 

1899 

-.031 

+  I.I2 

1811.16 

1860 

-.167 

+  .05 

1900 

-.050 

+  1.07 

1812.16 

1861 

-.174 

-  .09 

1901 

-.068 

+  1.00 

1813.16 

1862 

-.181 

-  -23 

1902 

-.085 

+  -91 

1814.16 

1863 

-.!87 

-  -36 

1903 

—  .100 

+  .80 

1815.16 

1864 

-.191 

-  -49 

1904 

-.114 

+  .69 

1816.16 

1865 

-.195 

-  .62 

1905 

-.127 

+  .56 

1817.16 

1866 

-.198 

-  -75 

1906 

-.139 

+  -44 

1818.16 

1867 

—  .201 

-  -87 

1907 

-.150 

+  .30 

1819.16 

1868 

—  .202 

-  .99 

1908 

-•159 

+  -I? 

1820.16 

1869 

—  .202 

—  i.  ii 

1909 

-.168 

+  .04 

1821.16 

1870 

—  .202 

—  1.22 

1910 

-•175 

—  .10 

1822.16 

1871 

—  .201 

-i-33 

1911 

-.182 

-  .23 

1823.16 

1872 

-.199 

-1-43 

1912 

-.188 

-  -37 

1824.16 

1873 

—  .196 

-1.52 

1913 

-.192 

-  -5° 

1825.16 

1874 

—  .192 

-1.61 

1914 

—  .196 

-  -63 

1826.16 

1875 

-.188 

—  1.69 

1915 

-.199 

-  -76 

1827.16 

1876 

-.182 

-1.77 

1916 

—  .201 

-  .88 

1828.16 

1877 

-.176 

-1.83 

1917 

—  .202 

—  I.OO 

1829.16 

1878 

—  .169 

-1.89 

1918 

-.203 

—  I.  ii 

1830.16 

1879 

—  .161 

-i-93 

1919 

—  .202 

—  1.22 

1831.16 

1880 

-•IS2 

-1.97 

1920 

—  .201 

-i-33 

1832.16 

1881 

-.142 

-1.99 

1921 

-.199 

-1-43 

1833.16 

1882 

-•131 

-1.99 

1922 

-•195 

—  I-SI 

1834-16 

1883 

-.119 

-1.99 

1923 

-.191 

-1.61 

1835.16 

1884 

—  .106 

-1.97 

1924 

-.187 

-1.70 

1836.16 

1885 

—  .092 

—  1.92 

1925 

-.181 

-1.78 

No.  iQ7g.     a  Geminorum  m.   Castor.   S  mo. 

The  magnitudes  are  assumed  to  be  2  "9  and  1^9  for  a1  and  a2  respectively.  The  extent  of  rela- 
tive motion  of  the  components  thus  far  measured  is  not  yet  sufficient  to  permit  the  computation  of 
a  reliable  orbit.  Nevertheless,  the  motion  is  so  slow  that  the  best  of  the  recently  computed  orbits 
should  afford  fairly  good  approximations  to  correctly  predicted  relative  positions  for  some  years  to 
come.  Accordingly,  Dobe&'s  orbit  (A.N.  Bd.  166,  5.  145)  has  been  adopted  as  the  basis  of  fur- 
ther computations.  The  problem  of  computing  relative  masses  of  the  components  from  the  merid- 
ian-observations is  manifestly  indeterminate.  Both  of  the  components  are  spectroscopic  binaries 
and,  under  certain  assumptions  as  to  the  situation  of  the  orbital  planes,  Dr.  Curtis  of  the  Lick 
Observatory  has  found  that  the  fainter  star  has  a  mass  about  six  times  greater  than  that  of  the 
brighter  component.  Notwithstanding  the  apparent  weight  of  evidence  in  favor  of  some  such  con- 
clusion as  that,  the  a  priori  probabilities  in  favor  of  nearer  equality  in  the  masses  seem  entitled  to 
weight.  Thus,  in  no  case  in  the  present  work,  where  the  material  for  computing  the  relative  masses 
of  the  two  components  of  a  binary  has  been  sufficient  for  a  fairly  trustworthy  result,  has  the  mass 
of  a  faint  companion  turned  out  to  be  demonstrably  greater  than  that  of  the  brighter  star.  In 
the  present  instance,  accordingly,  it  has  been  assumed  that  the  center  of  gravity  is  at  the  mean 


APPENDIX   H 


267 


between  the  two  stars.  Since  the  curvature  of  the  orbit  is  very  small,  the  practical  error  of  this 
assumption  can  not  be  very  serious  for  ten  or  fifteen  years  to  come.  It  is  hardly  necessary  to 
remark,  however,  that  the  value  of  this  as  a  fundamental  star  is  impaired  by  the  circumstances 
described.  The  catalogue-place  is  that  of  the  mean.  In  order  to  determine  the  position  of  a*  the 
quantities  taken  from  the  following  table  must  be  added  to  the  catalogue-position  for  the  respec- 
tive years.  To  get  the  corresponding  positions  of  a*  reverse  the  signs  of  the  table  and  apply  as 
before. 


Date. 

Aa. 

AS. 

Date. 

Aa. 

AS. 

'755 

-!o86 

+  J-54 

1864 

-.186 

// 

-1.30 

1757 

-.088 

+  1.50 

1872 

-.184 

-1.48 

1800 

-.148 

+  -44 

1880 

—  .180 

—  1.64 

1808 

-.158 

+  .22 

1888 

-•'73 

-1.79 

1816 

-.166 

.00 

1896 

—  .164 

—  1.92 

1824 

-.172 

-  -23 

1900 

-.158 

-1.96 

1832 

-.178 

-  -45 

1904 

-.152 

—  2.OO 

1840 

-.182 

-  -67 

1912 

-.138 

-2.05 

1848 

-.184 

-  .89 

1920 

—  .120 

-2.06 

1856 

-.186 

—  I.IO 

1924 

—  .no 

—  2.O4 

No.  2008.     a  Cards  Minoris.  Procyon. 

The  annual  parallax  may  be  taken  as  0".$$.  After  trial  it  was  found  that  none  of  the  published 
orbits  of  this  binary  could  be  satisfactorily  reconciled  with  the  meridian-observations  of  the  bright 
star  and  the  micrometrical  observations  of  the  fainter  star  at  the  same  time.  Accordingly,  a  new 
orbit  was  computed  by  successive  approximations.  The  result  gave  for  the  ratio  of  masses,  i :  .33, 
the  bright  star  being  the  more  massive.  These  are  the  resulting  orbits  : 


BRIGHT  STAR  ABOUT  THE  CENTER  OF  GRAVITY. 

T  =  1886.5 
Period  —  39.0  years 
0  -  33o°7 
»  —  14.4 
a  -  36.8 
a  -  I'.'oo 
e  -  .324 


FAINT  STAR  ABOUT  THE  BRIGHTER. 

T  =  1886.5 
Period  =•  39.0  years 
Q  -  150?? 
f  —  14.2  ' 

4-  36.8 
a  -  4'.'o5 
«  -  -324 


The  orbit  is,  of  course,  very  uncertain,  though  the  ratio  of  the  masses  is  fairly  well  determined. 
The  observation  of  the  double  is  very  difficult;  and  the  meridian-observations  on  a  star  so  bright  as 
this  are  very  liable  to  be  affected  with  anomalies.  The  following  table  indicates  the  results  of 
comparison  of  the  orbit  with  the  micrometrical  observations  published  in  Burnham's  General  Cata- 
logue of  double  stars,  in  the  sense,  C-O : 


Observer. 

Epoch. 

«c-«o 

Pc-Po 

Nights. 

Observer. 

Epoch. 

«c-«o 

Pc-Po 

Nights. 

Schaberle 

1896.93 

0 

-2.8 

—  .01 

4 

Barnard 

1899.07 

• 

+.03 

// 

+.03 

3 

Aitken 

1897.0 

-3-o 

—  .21 

4 

Aitken 

1899.96 

+1.4 

+  .10 

3 

Hussey 

1897.16 

-0.6 

-•03 

3 

Barnard 

1900.05 

+  0.4 

-.07 

6 

Schaberle 

1897.82 

—  I.O 

+  .08 

6 

Lewis 

1900.23 

-0.9 

+.23 

i 

See 

1897.83 

-4-3 

-.06 

i 

See 

1900.29 

+  5-3 

+  .46 

4 

Boothroyd 

1897.83 

-5-3 

-.08 

i 

Aitken 

1901.20 

+  4-i 

+  .01 

2 

Aitken 

1897.88 

—  O.I 

+  .04 

3 

Barnard 

1901.88 

+  2-5 

+  .12 

2 

Aitken 

1898.21 

+  °-S 

-.04 

2 

Lewis 

1902.21 

+  2.8 

-•17 

2 

Barnard 

1898.21 

—  O.2 

-•°5 

6 

Hussey 

1002.24 

+  1.3 

+  .11 

I 

Lewis 

1898.24 

—  O.I 

+  •52 

i 

Barnard 

'OQS-iS 

+  1.4 

+  .11 

3 

Hussey 

1898.28 

+  1.2 

+  .28 

i 

Aitken 

1905.14 

-3-9 

+  .17 

i 

Aitken 

1898.76 

-1.8 

-.07 

3 

268 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    IpOO 


If  we  gather  the  residuals,  C-O  in  Aa  and  As  for  the  meridian -observations  (extending  from 
1757  to  1900)  into  the  revolution  included  between  1861  and  1901,  we  have  the  following  repre- 
sentation of  normal  places: 

» 

MERIDIAN  OBSERVATION  C-O  m  Aa  AND  As. 


R.  A. 

Decl. 

Date. 

No.  of 
Catal. 

Weight. 

Aa. 

Date. 

No.  of 
Catal. 

Weight. 

AS. 

1863.0 

4 

15 

-•i? 

1863.3 

6 

18 

// 

+  .04 

1865.6 

6 

25 

-.07 

1865.2 

3 

14 

+  •15 

1869.3 

S 

23 

+  .07 

1869.1 

S 

14 

-•05 

1871.9 

s 

ii 

+  -IS 

1871.9 

4 

7 

-.26 

1875.0 

6 

i? 

+  .04 

1874.4 

4 

7 

—  .21 

1877.9 

S 

20 

+  .08 

1877.2 

7 

i? 

—  .12 

1881.3 

4 

13 

+  .17 

1882.1 

9 

34 

—  .02 

1885.0 

7 

25 

-.09 

1886.3 

3 

13 

+  •13 

1889.5 

9 

34 

—  .02 

1889.9 

7 

21 

+  .09 

1895.1 

6 

19 

+  .04 

1894.9 

6 

19 

+  .01 

1899.1 

4 

14 

+  .07 

1898.0 

5 

14 

-•°3 

The  probable  error  of  the  unit  of  weight  from  the  above  residuals  (three  unknown  quantities)  is 
±'.'29,  while  the  theoretical  value  is  ±"30.    The  representation  seems  to  be  satisfactory. 

The  following  table  gives  the  quantities  which  must  be  added  at  the  respective  dates  to  the 
position  of  the  center  of  gravity,  as  printed  in  this  Catalogue,  in  order  to  have  the  position  of  the 
principal  star  at  that  date.  By  adding  or  subtracting  multiples  of  39  years  to  the  arguments  of  this 
table,  the  value  of  Aa  and  AS,  with  a  slight  correction  for  precession,  can  be  computed  for  other 
dates.  If  positions  of  the  fainter  star  are  required,  multiply  the  tabular  numbers  by  —3.05  and 
add  to  the  position  of  the  center  of  gravity. 


Date. 

Aa. 

AS. 

Date. 

Aa. 

AS. 

Date. 

Aa. 

AS. 

1862 
1863 
1864 

s 

+  .026 

+  .019 

+  .012 

-«-»5 

—  1.20 
-1.24 

1883 
1884 
1885 

s 
—  .040 
—  .029 
—  .016 

tt 

+  -45 
+  -56 
+  .63 

1904 

'9°S 
1906 

s 
+  .005 
—  .003 

—  .010 

-1.26 
-1.26 
-1.25 

1865 
1866 
1867 

+  .005 
—  .002 
—  .OIO 

—  1.26 
-1.26 

-1.25 

1886 
1887 
1888 

—  .002 

+  .OI2 
+  .025 

+  .65 
+  .62 

+  -54 

1907 
1908 
1909 

-.017 

—  .024 

-.031 

—  1.22 
-I.I9 
-1.  14 

1868 
1869 
1870 

-.OI? 
—  .024 
—  .030 

-1.83 

-1.19 

—  1.14 

1889 
1890 
1891 

+  .036 

+  .045 
+  .051 

+  .41 
+  -25 

+  .10 

1910 
1911 
1912 

-•037 

—  •043 
-.048 

-1.  08 
—  I.OO 
-  .91 

1871 
1872 
1873 

-•°37 
-•043 
-.048 

-1.07 

-  -99 
-  .91 

1892 

1893 
1894 

+  -°S5 
+  •057 
+  -°S7 

-  -°7 
-  -24 
-  .40 

1913 
1914 

1915 

-•°S3 
-.056 
-.060 

-  .81 
-  .69 

-  -57 

1874 

1875 
1876 

-•°S3 
-•°57 
—  .060 

-  .81 

-  .70 
-  -57 

1895 
1896 
1897 

+  .056 

+  -°S3 
+  .049 

-:S4 
-  .81 

1916 
1917 
1918 

-.061 
-.062 
—  .061 

-  -43 
-  .29 

-  -'3 

1877 
1878 
1879 

—  .062 
—  .062 
-.061 

-  .44 
-  .29 
-  .14 

1898 
1899 
1900 

+  .044 
+  .038 
+  .032 

-  .92 

—  1  .01 

-1.09 

1919 
1920 
1921 

-•°S9 
—  •054 
-.048 

+  .02 
+  .17 
+  -32 

1880 
1881 
1882 

-•°59 

-•055 
—  .048 

+  .01 

+  .17 
+  .32 

1901 
1902 
r9°3 

+  .026 
+  .019 

+  .012 

-1.16 
—  i.  20 
-1.24 

1922 
1923 
1924 

-•°39 
—  .028 
—  .016 

+  -45 
+  .56 
+  .63 

1925 

—  .002 

+  -65 

APPENDIX   II 


269 


No.  2984.     |  Ursae  Maj.  e.g.  S  1523. 

The  components  are  of  the  magnitudes  4"!  and  SMI  respectively.  The  orbit  of  this  star  is  com- 
paratively determinate  and  is  here  adopted  from  the  computations  of  See  (Stellar  Systems).  The 
period  is  60  years;  the  major  axis  of  the  apparent  orbit  is  4'/8;  and  the  minor  axis  is  z'/y.  Taking 
the  mass  of  the  brighter  star  as  unity,  that  of  the  companion  is  found  to  be: 

from  the  right- ascensions,  1.43 
from  the  declinations,          .75 

or  1.09  in  the  mean.  The  masses  are  thus  very  near  equality.  They  are  assumed  to  be  exactly 
equal.  This  places  the  center  of  gravity  midway  between  the  two  stars.  In  making  these  deduc- 
tions, however,  it  has  been  assumed  that  whenever  the  observers  record  the  position  of  the  "mass," 
the  pointing  was  approximately  upon  a  point  one-third  of  the  distance  from  the  brighter  toward 
the  fainter  star.  This  can  only  be  regarded  as  a  rough  approximation  to  the  truth;  and,  therefore, 
the  present  determination  of  relative  mass  can  not  lay  claim  to  precision. 

If  the  position  of  the  bright  star  is  desired,  it  may  be  obtained  by  adding  to  the  catalogue-posi- 
tion, reduced  to  the  required  date,  the  quantity  taken  from  the  following  table  for  the  corresponding 
date.  For  the  fainter  companion,  reverse  the  sign  of  the  table  and  add  as  before. 


Date. 

Aa. 

AS. 

Date. 

Aa. 

AS. 

1800 

1860 

5 
—  .110 

+  .36 

1836 

1896 

s 
+  .006 

+  -94 

1804 

1864 

-.098 

+  .08 

1840 

1900 

-•°3S 

+  1.00 

1808 

1868 

-.068 

—  .21 

1844 

1904 

-.062 

+  .98 

1812 

1872 

-.018 

-  -42 

1848 

1908 

-.084 

+  .92 

1816 

1876 

+  .040 

-  .38 

1852 

1912 

—  .IOO 

+  .78 

1820 

1880 

+  .068 

-  .08 

1856 

1916 

—  .no 

+  .60 

1824 

1884 

+  .068 

-f  .28 

1860 

1920 

—  .no 

+  -36 

1828 

1888 

+  .050 

+  .58 

1864 

1924 

—  .098 

+  .08 

1832 

1892 

+  .022 

+  .80 

No.  3112.  Groomb  1830. 

If  the  proper  motion  of  a  star  is  assumed  to  be  uniform  in  a  straight  line,  it  will  not  be  uniform 
in  circular  measure  upon  the  sky,  though  this  deviation  in  any  case  actually  presented  in  nature 
will  be  exceedingly  slight.  This  theoretical  deviation  from  uniformity  in  angular  motion  was  long 
ago  pointed  out  by  Bessel;  and  Seeliger  (Ast.  Nach.,  Bd.  154,  s.  67)  has  derived  formulas  express- 
ing this  effect.  Dr.  Ristenpart  attempted  to  make  an  application  of  such  formulas  to  the  case  of 
Groomb  1830  (V.J.S.,  Bd.  37,  s.  242),  but  reached  a  negative  result.  Many  years  ago  the  writer 
made  such  an  attempt,  finding  the  weight  of  observation  at  that  time  totally  insufficient  for  even 
a  nominal  solution  of  the  problem.  Even  now  the  determination  of  the  variation  of  the  proper 
motion  of  this  star  due  to  foreshortening  is  associated  with  a  probable  error  quite  comparable  with 

the  quantity  to  be  determined.    The  foreshortening  effect  produces  terms  —  ,  —  ^>  etc.,  in  the 

at      or 

proper  motion,  of  which  the  first,  only,  can  have  any  sensible  effect  during  the  period  of  observa- 
tion thus  far  elapsed.  In  other  words,  we  may  assume  that  the  proper  motion  varies  uniformly 
with  the  time.  This  produces  in  the  positions  a  term: 

,   A^  /T-  i875V 

'    dt    \      loo     ) 


dlt, 

~ 


fi  , 

-jr  may  be  resolved  into  its  components  ~T  and  -jr>  and  these  latter  may  be  determined  from  the 
results  of  meridian-observations.     In  the  equations  for  determining  the  correction  to  the  assumed 

place,   the  term,  £—  (rf,  has  been  introduced  to  account  for  the  perspective  effect  in  right- 
dt 

ascension,  so  that  the  conditional  equation  becomes: 


270  PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    1  900 

and  similarly  for  declination.  The  unit  of  r  is  one  century.  We  take  as  centennial  /^,,  703^5  ; 
for  p,  +  399  "5  ;  and  for  /*',  —  S79'.'o,  these  being  the  instantaneous  values  assumed  for  1875.  Then 
the  solution  of  the  conditional  equations  gives: 

From  R.A.,  |  ^  (centennial)  =  -"0x584;   ^?  =  -  "0296  ±  "0380 
at  at 

From  dec!.,  i-  ^-  (centennial)  =  -"0173;    ^  =  +  "0420  ±  "0214 
at  at 

Assigning  to  these  two  results  weights,  one  for  R.A.  and  3  for  decl.,  in  close  accordance  with  their 


respective  probable  errors,  we  have  as  the  value  of  -^'  determined  from  the  meridian-observa- 

dl 

tions:  ^-°  =+'.'0241  ±'.'0190 

m 

In  the  case  of  Groomb  1830,  -^  may  be  found  in  another  way.    Let  w  be  the  annual  parallax 

of  a  star,  /v.  its  centennial  proper-motion  in  arc,  and  /  its  radial  motion  in  kilometers  per  second, 
then,  after  Seeliger  (Ast.  Nach.,  Bd.,  154,  s.  67): 


o 

-^  =    -  .00000205  Ipo  IT 

If,  now,  for  Groomb  1830  we  put  /  =  —  96  km.  from  the  result  obtained  at  the  Lick  Observatory; 
/*'=  7O3'.'S>  and  ir  =  V'i2,  we  have, 


in  good  agreement  with  the  value  of  the  same  quantity  derived  from  meridian-observations.  As 
there  is  some  uncertainty  in  the  determination  of  motion  in  the  line  of  sight  for  so  faint  a  star,  and 
proportionately  still  greater  uncertainty  in  a  parallax  so  small,  it  may  be  assumed  that  a  more 
probable  result  would  be  reached  by  adopting  the  mean  of  the  values  derived  from  the  two  dif- 
ferent sources  or: 


Adopted         =  +"0204 
at 

The  resulting  corrections  to  the  secular  variations  computed  in  the  ordinary  way,  as  for  other  stars 
in  the  Catalogue,  are: 

=  -"0168 


at  at 

which  have  been  adopted.    It  is  probable  that  the  adoption  of  these  quantities  may  result  in  a 
smaller  error  of  prediction  than  would  have  resulted  from  their  rejection. 
No.  3307.   y  Virginis.   5  1670.  3*6-3*6. 

This  is  a  celebrated  binary  system  having  a  period  of  about  194  years  according  to  See  (Stellar 
Systems).  See's  orbit  is  here  adopted  in  computing  the  relation  of  the  separate  stars  to  the  center 
of  gravity.  Since  the  effective  meridian-observations  cover  only  about  one-half  of  the  orbital 
period,  there  is  serious  indetermination  between  the  orbital  and  proper-motion.  However,  both  of 
the  stars  have  been  well  observed;  and  the  comparatively  equal  brightness  of  components  is  prob- 
ably favorable  to  relatively  small  systematic  errors  of  observation  wherever  the  mean  has  been 
observed.  Assuming  the  star  which  is  now  south  -folio  wing  to  be  the  principal  star,  the  distance 
of  the  center  of  gravity  from  it  in  terms  of  the  distance,  p,  between  the  two  components  is  found  to 
be  as  follows: 

From  observations  of  •/,  R.  A.,     0.30       wt.  i 
Decl.,     0.56       wt.  2 

From  observations  of  y2  R.  A.,     0.49       wt.  i 
Decl.,     0.65      wt.  2 

Mean  by  weights  0.54 


APPENDIX   II 


27I 


The  observed  relative  masses,  calling  the  mass  of  the  principal  star  unity,  are :  i  to  i.i,  the  com- 
panion being  the  more  massive.  But  since  the  brightness  of  the  two  components  is  nearly  the 
same,  and  the  difference  in  observed  relative  masses  is  smaller  than  the  probable  error  properly 
attaching  to  that  difference,  the  masses  are  assumed  to  be  equal.  On  that  basis  the  following  table 
has  been  prepared,  giving  quantities  which  must  be  added  to  the  catalogue-place  to  get  the  place 
of  the  principal  star.  Reversing  the  signs  of  the  table  and  adding,  we  derive  the  predicted  place  of 
the  companion  star,  at  the  present  time  north,  preceding. 


Date. 

Aa. 

AS. 

Date. 

Aa. 

AS. 

Date. 

Aa. 

AS. 

1754 

s 
+  .146 

n 

-4.32 

1844 

s 

—  .012 

ft 

-  -93 

1888 

s 
+  .082 

-2.49 

1756 

+  •147 

-2.30 

1848 

-.003 

—  1.24 

1892 

+  .088 

-2-54 

1758 

+  .148 

—2.26 

1852 

+  .007 

-1.48 

1896 

+  .094 

-2.56 

1812 

+  .118 

-  -78 

1856 

+  .016 

-1.68 

1900 

+  .IOO 

-2.58 

1816 

+  .110 

-  .61 

1860 

+  .026 

-1.86 

1904 

+  .106 

—  2.60 

1820 

+  .IOO 

-  -43 

1864 

+  .036 

—  2.OO 

1908 

+  .112 

-2.61 

1824 

+.086 

-  -24 

1868 

+  .044 

—  2.12 

1912 

+  .116 

—  2.61 

1828 

+.069 

-  .04 

1872 

+  .052 

—  2.22 

1916 

+  .121 

—  2.60 

1832 

+  .045 

+  .16 

1876 

+  .060 

-2.30 

1920 

+  .126 

-2-59 

1836 

.000 

+  .21 

1880 

+  .068 

-2.38 

1924 

+  •13° 

-2.58 

1840 

—  .020 

-  -5° 

1884 

+  .074 

-2.44 

No.  3735.   a  Centauri. 

The  magnitudes  are  o^o  and  1™$,  and  the  annual  parallax  may  be  taken  as  o"75.  This  is  one  of 
the  most  interesting  stars  in  the  sky  on  account  of  its  large  parallax,  o"75,  and  its  comparatively 
rapid  orbital  motion.  In  computing  the  place  of  the  center  of  gravity,  the  orbit  of  Roberts  (A.N., 
133,  105)  was  adopted.  This  makes  the  period  81.185  years.  The  components  are  so  widely 
separated  that  the  observations  of  either  should  not  be  seriously  affected  in  a  systematic  way  by  the 
presence  of  the  other.  In  determining  the  position  of  the  center  of  gravity,  the  two  components  are 
almost  equally  available.  Following  is  a  summary  of  results  for  the  mass  of  the  fainter  compo- 
nent, that  of  the  principal  star  being  assumed  as  the  unit : 


Mass 
0.67 
0.78 
0.89 
0.91 
0.85 


Wt. 
8 

55 
14 
70 


Observations  of  fainter  star,  R.'  A., 

Decl., 
Observations  of  brighter  star,  R.  A., 

Decl., 
Adopted  mean 

The  center  of  gravity  appears  to  be  located  at  about  0.458  p,  from  the  brighter  toward  the  fainter 
star,  —  p  representing  the  entire  distance.  In  computing  the  proper-motion,  some  of  the  observa- 
tions were  corrected  for  parallax,  according  to  a  summary  process,  assuming  the  parallax  to  be  "75. 
The  following  table  gives  the  quantities  which  must  be  added  to  the  Catalogue-prediction  for  the 
respective  dates  in  order  to  derive  the  position  of  the  brighter  component.  If  the  numbers  of  the 
table  be  multiplied  by  —1.183  an(i  added  to  the  positions  computed  from  the  Catalogue,  we  shall 
have  the  positions  of  the  fainter  component  for  the  respective  dates. 


Date. 

Aa. 

AS. 

Date. 

Aa. 

AS. 

Date. 

Aa. 

AS. 

1830 

s 
+  .700 

It 

+  7-3I 

1868 

s 
-.172 

-4.42 

1890 

+  .467 

+  7-S4 

1835 

+  .658 

+  6.  ii 

1869 

-.199 

-4-47 

1895 

+  .596 

+  8.53 

1840 

+  •592 

+  4.70 

1870 

-.223 

-4.46 

1900 

+  .671 

+  8.72 

1845 

+  .498 

+  3.06 

1872 

-.251 

-4.09 

1905 

+  .707 

+  8-37 

1850 

+  .406 

+  .76 

1874 

—  .246 

-3-17 

1910 

+  -7°3 

+  7.61 

1854 

+  .271 

—  .21 

1876 

-.188 

-1.60 

1915 

+  .671 

+  6.49 

1858 

+  .150 

-1.68 

1878 

-.097 

+  -25 

1920 

+  .612 

+  5.10 

1862 

+  .019 

-3-°4 

1880 

+  .017 

+  2.12 

1925 

+  •523 

+  3-5° 

1866 

—  .112 

-4.11 

1885 

+  .279 

+  5.64 

272 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


No.  3798.     |  Bootis  e.g.    "2  1888. 

The  period  of  this  binary  is  148.46  years  according  to  Biesbroeck  (A.N.,  3989),  and  the  mag- 
nitudes of  the  components  are  4""8  and  6^7.  Although  the  position  angle  of  the  companion  had 
described  less  than  180°  within  the  period  of  accurate  measurements,  the  orbits  recently  computed 
are  apparently  entitled  to  greater  weight  than  is  usual  under  such  circumstances.  However,  the 
relative  motion  of  the  components  has  been  slowly  accelerating  up  to  the  present  time;  and  this  is 
a  condition  that  makes  for  uncertainty  in  prediction.  Yet  it  is  probably  better  to  make  some 
attempt  to  determine  the  relation  of  the  masses  of  the  two  stars,  and  then  refer  the  motion  of  the 
components  to  the  resulting  center  of  gravity  than  it  would  be  to  assume  that  the  motion  of  either 
star  is  rectilinear.  For  the  distance  of  the  brighter  star  from  the  center  of  gravity,  reckoned  in 
terms  of  />,  the  distance  between  the  two  stars,  we  have: 

From  right-ascension,     .60  p      wt.  2 

From  decl.,  .41  p      wt.  5 

Adopted,  .47  p 

Accordingly,  putting  the  mass  of  the  brighter  star  as  unity,  that  of  the  companion  would  be  .87. 
If  the  numbers  of  the  following  table  be  added  to  the  catalogue-position  of  the  corresponding  dates, 
we  shall  have  the  places  of  the  brighter  star.  Multiplying  the  tabular  numbers  by  —1.15,  and 
adding  to  the  catalogue-place,  produces  the  corresponding  positions  of  the  companion. 


Date. 

Aa. 

AS. 

Date. 

Aa. 

AS. 

Date. 

Aa. 

AS. 

1824 

5 
+  .094 

n 

-3-13 

1888 

s 
+  .IIO 

ft 

+  .42 

1908 

-.028 

ft 

+  -94 

1832 

+  .114 

-2-95 

1892 

+  .091 

+  .72 

1910 

-•043 

+  .72 

1840 

+  .131 

-2.68 

1896 

+  .068 

+  .98 

1912 

-•°S5 

+  -45 

1848 

+  •144 

-2.32 

1900 

+  -°39 

+  1.15 

1914 

—  .062 

+  .14 

1856 

+  .IS2 

-1.89 

1902 

+  •023 

+  1.18 

1916 

—  .067 

-  -I? 

1864 

+  -IS4 

-1.38 

1904 

+  .006 

+  1.16 

1920 

-.068 

-  -78 

1872 

+  .149 

-  .82 

1906 

—  .012 

+  1.09 

1924 

-.036 

-1.28 

1880 

+  -I3S 

—  .21 

Nos.  3846  and  3847.  Grw^  1220  and  Br  1923.  44  Bootis  /.   S  1909. 

The  positions  in  the  Catalogue  are  given  to  the  nearest  o?i  and  i"  only  because  of  the  well- 
marked  binary  motion  of  the  two  components.  In  particular,  the  fact  that  the  companion  reached 
apastron  about  1870  and  is  now  well  on  its  way  toward  periastron,  with  accelerating  motion,  tends 
to  make  future  prediction  unsafe,  in  view  of  the  absence  of  knowledge  as  to  the  approximate  ele- 
ments of  the  orbit.  The  magnitudes,  about  51*2  and  61I2,  do  not  appear  to  be  sufficiently  unequal 
to  render  marked  inequality  of  masses  probable.  The  center  of  gravity  is  likely  to  be  near  the 
mean  between  the  two  stars.  Adopting  the  mean,  we  should  have: 

R.  A.  =  ish  om  29?537.     Decl.  =  +  48°  2'  3  $'.'65.     /*  =  -  80406.     /*'  =  +  '.'028 
No-  3923.   i\  Coronae  Bor.   S  1937. 

A  very  well-known  binary.  The  period  is  about  41.5  years;  the  distances  never  much  exceed 
i";  and  the  magnitudes  of  the  two  stars  are  assumed  to  be  about  5IUI7  and  6"?2.  The  meridian 
observers  have  necessarily  pointed  upon  the  general  mass  of  light,  and  this  can  not  have  been  very 
different  from  the  center  of  gravity,  to  which  the  catalogue-position  may  be  supposed  approxi- 
mately to  correspond. 
No.  3960.  S  Serpentis.  S  1954. 

Among  the  meridian-observations  employed  in  this  discussion,  none  previous  to  1850  refer  to 
the  south  star.  If  the  position  for  1900  of  that  component  is  desired,  it  can  best  be  obtained  through 
the  micrometer-differences,  thus: 

South  star,  5"  i.     R.  A.  =  ish3om  i?492.     Decl.  =  +  10°  52' IQ'.^O.    /»= —50041.    ^'  =  —'.'004 
No.  3988.    £2  Coronae  Bor.  S  1965. 

The  companion  is  of  magnitude  6™i,  and  is  very  nearly  fixed  with  reference  to  the  principal  star 
at  a  distance  of  6".  Meridian  observers  neglected  the  companion,  however,  until  near  1860.  Con- 


APPENDIX   II 


273 


sequently  the  published  material  for  computing  the  proper  motion  of  ?  is  slender.  Assuming  the 
p.m.  to  be  the  same  as  that  given  for  £*  in  the  Catalogue,  and  that 

Aa  =  —  0^438  AS  =  +  3^40,  for  1900 

as  computed  from  the  micrometrical  observations,  we  have  for  1900: 

f1  Coronae,  R.  A.  =  ish  35™  36?a82.     Decl.  =  36°  57'  40^49 

A  few  good  determinations  of  the  position  of  <g  at  the  present  time  would  permit  of  a  fairly 
accurate  determination  of  p.m.  from  the  meridian-observations. 
No.  4138.   a  Coronae  Bor.    e.g.,  S  2032. 

The  companion  is  of  6  "8.  The  orbit  is  adopted  from  See  (Stellar  Systems).  The  period  is  370 
years,  and  is,  of  course,  very  uncertain.  But  since  periastron  occurred  early  in  the  nineteenth  cen- 
tury, the  determination  of  the  relative  masses  seems  to  be  entitled  to  some  consideration,  though  it 
is,  of  course,  uncertain.  For  the  coefficient  of  p  in  the  expressions  to  designate  the  distance  of  the 
center  of  gravity  from  the  bright  toward  the  faint  star  we  have: 

From  R.  A.  =  .46  ±  .20 1 

,-,         ,    ,  r  Adopted,  .-12  ±  .12 

From  decl.    =  24  ±  .15  J 

If  we  put  the  mass  of  the  bright  star  as  unity,  that  of  the  faint  star  would  be  .47.  It  seems  prob- 
able, at  least,  that  the  mass  of  the  companion  is  not  greater  than  that  of  the  so-called  principal 
star.  Assuming  the  center  of  gravity  to  divide  the  distances  in  the  proportion  of  .32  to  .68,  we  have 
the  numbers  of  the  following  table,  which,  added  to  the  catalogue-place,  will  predict  the  place  of 
the  bright  star.  Multiplying  the  numbers  of  the  table  by  —2.12  and  adding  in  like  manner,  we 
derive  the  positions  of  the  companion. 


Date. 

Aa. 

AS. 

Date. 

Aa. 

AS. 

Date. 

Aa. 

AS. 

1800 

s 
—  .016 

ft 

-  -7° 

1844 

s 
—  .016 

+  -54 

1888 

3 
+  .048 

// 
+  1.18 

1804 

—  .022 

-  .66 

1848 

—  .010 

+  -65 

1892 

+  -°S3 

+  1.20 

1808 

—  .027 

-  -58 

1852 

—  .004 

+  -74 

1896 

+  .058 

+  1.22 

1812 

-.031 

-  .48 

1856 

+  .002 

+  .82 

1900 

+  .063 

+  1.23 

1816 

-•034 

-  -37 

1860 

+  .009 

+  .89 

1904 

+  .067 

+  1.23 

1820 

-.036 

-  .24 

1864 

+  .015 

+  .96 

1908 

+  .071 

+  1.24 

1824 

—  .036 

—  .11 

1868 

+  .O2I 

+  I.OI 

1912 

+  -°7S 

+  1.24 

1828 

-•°35 

+  .03 

1872 

+  .026 

+  1.06 

1916 

+  .079 

+  1.24 

1832 

-.031 

+  -17 

1876 

+  .032 

+  I.IO 

1920 

+  •083 

+  1.23 

1836 

-.027 

+  -30 

1880 

+  .038 

+  1.14 

1924 

+  .086 

+  1.22 

1840 

—  .022 

+  -43 

1884 

+  .043 

+  1.16 

No.  4178.   p  Ophiuchi. 

This  is  W.  H.,  II,  19.  The  magnitudes  are  5**2  and  $*•].  The  stars  are  relatively  very  nearly 
fixed.  The  following  expression  gives  approximately  the  reduction  of  the  components  to  the 
mean,  the  upper  signs  corresponding  to  the  principal  star. 

Aa  =  +"  ?OI2  +"  .0003  (T  —  1900)  AS  =  ±  i"72 

The  effective  pointings  of  the  early  observers  of  this  star  probably  relate  to  the  mass;  and  they 
may  be  less  nearly  coincident  with  the  principal  star  than  with  the  mean  of  the  two  components. 
Later  observers  more  often  give  results  for  both  components.  It  is  difficult  to  decide  on  the  best 
course  in  a  case  like  this;  but  it  has  been  assumed  that  the  earlier  observers  pointed  on  the  mean; 
means  were  taken  where  observers  give  both  components;  and  the  foregoing  corrections  were  em- 
ployed where  a  single  component  is  specified.  Thus  the  catalogue-place  is  intended  to  correspond 
to  the  mean  of  the  two  stars,  though  this  can  be  considered  no  better  than  a  fair  approximation  to 
the  truth. 

We  have  for  the  two  components  in  1900: 

R.  A.  /*  M' 

North  star  5^7:  i&  ig"1  35?229  —  ?oon  —  23°  12'  57'.'49  —  ''021 
South  star   5.2:  35.253  —  .0005  13      0.93—  .021 


274 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


Wo.  4203.  X  Ophiuchi.   Z  2055. 

The  respective  magnitudes  of  this  close  binary  are  4"o  and  6"i.  As  the  distances  have  always 
been  less  than  2"  (usually  less  than  i'.'6)  the  "  mass"  of  light  has  been  observed  by  all  of  the  meridian- 
observers.  Various  orbits  have  been  computed,  showing  that  the  period  is  somewhere  between  200 
and  400  years.  Since  the  form  of  the  orbit  is  still  very  uncertain,  no  attempt  has  been  made  to  dis- 
cuss the  meridian-observations  in  conformity  with  some  adopted  orbit  which  shall  determine  the 
relative  curvature  of  the  path.  But  in  the  determination  of  ft,  and  //,  terms  have  been  added  to 
deduce  empirically  the  effect  of  curvature  of  the  adopted  point  of  observation,  so  far  as  this  effect 
can  be  represented  by  a  term  dependent  on  the  square  of  the  time.  Accordingly,  for  the  secular 
variation  and  for  the  centennial  variation  in  p.m.,  the  following  special  terms  have  been  derived: 

in  R.  A.,  —  !o<D2o  in  decl.,  +  '.'004 

These  terms  have  not  been  adopted,  although  in  R.  A.  the  term  is  more  than  twice  as  large  as  its 
probable  error.  Prediction  for  this  star  must  be  regarded  as  very  uncertain,  since  it  may  be  sur- 
mised that  the  center  of  gravity  is  probably  not  far  from  the  mean  between  the  two  stars,  while  the 
point  observed  must  be  very  near  the  brighter  star. 

No.  4246.   £  Herculis  e.g.   Z  2084. 

The  adopted  magnitudes  of  the  two  components  are  21*8  and  6™$.  In  determining  the  position 
of  the  center  of  gravity  of  this  rapid  binary,  Doberck's  orbit  (A.N.,  144,  s.  241)  has  been  employed. 
This  makes  the  period  34.5  years.  The  determination  of  relative  masses  of  the  two  components  is 
more  definite  in  this  than  in  most  instances.  If  we  call  the  mass  of  the  brighter  star  unity,  that  of 
the  fainter  comes  out. 

Mass  of  companion,     .39  ±  .04  from  right-ascension 
Mass  of  companion,     .5o±.o6  from  declination 
Adopted,  .43  ±  .04 

The  effect  of  the  periodic  term  in  the  proper-motion  is  very  clearly  revealed  in  the  residuals  formed 
from  the  meridian-observations.  If  to  the  positions  of  the  center  of  gravity  at  various  epochs,  com- 
puted from  the  catalogue-place,  we  add  the  numbers  in  the  following  table,  we  shall  have  the  posi- 
tions of  the  bright  star  for  the  corresponding  dates.  Multiplying  the  numbers  of  the  table  by  —3.33, 
and  adding  as  before,  we  have  the  position  of  the  fainter  star. 


Date. 

Aa. 

AS. 

Date. 

Aa. 

AS. 

Date. 

Aa. 

AS. 

1870 

a 
+  .007 

+  .32 

1890 

s 
-.034 

it 
-.16 

1910 

s 
-.015 

n 

+-3a 

1871 

+  -003 

+  •34 

1891 

-.031 

-.19 

1911 

-.018 

+  .29 

1872 

—  .001 

+  •35 

1892 

-.028 

—  .21 

1912 

—  .021 

+  .27 

i8?3 

-.005 

+  •34 

1893 

.024 

-•23 

I9J3 

-.025 

+  .24 

1874 

-.009 

+  •34 

1894 

—  .019 

-.24 

1914 

-.027 

+  .22 

1875 

-.013 

+  .3« 

1895 

—  .012 

-•23 

I9IS 

—  .030 

+  •19 

1876 

—  .016 

+  •31 

1896 

-.006 

—  .22 

1916 

-.032 

+  -IS 

1877 

—  .020 

+  .29 

1897 

+  .003 

-•17 

1917 

-.034 

+  .12 

1878 

-.023 

+  .26 

1898 

+  .009 

—  .IO 

1918 

-•035 

+  .08 

1879 

—  .026 

+  •23 

1899 

+  .015 

—  .02 

1919 

-.036 

+  .04 

1880 

—  .029 

+  .20 

1900 

+  .017 

+  .09 

1920 

-•037 

+  .01 

1881 

-.031 

+  •17 

1901 

+  .017 

+  .17 

1921 

-•037 

-•03 

1882 

-•°33 

+  .14 

1902 

+  .016 

+  •23 

1922 

-•037 

-.07 

1883 

-•°34 

+  .10 

1903 

+  .013 

+  .28 

1923 

—  .036 

—  .10 

1884 

—  .036 

+  .06 

1904 

+  .009 

+  •31 

1924 

-•034 

—.14 

1925 

—  .032 

-.17 

1885 

-•°37 

+  .02 

1905 

+  .005 

+  •33 

1886 

-•°37 

—  .02 

1906 

+  .OOI 

+  •34 

1887 

-•°37 

-•05 

1907 

-.003 

+  •34 

1888 

-•°37 

-.09 

1908 

-.007 

+  •33 

1889 

-•035 

—  .12 

1909 

—  .Oil 

+  •33 

APPENDIX   II 


275 


No.  4376.   8  Herculis.   S  3127. 

The  motion  of  the  companion  relative  to  the  principal  star  is  evidently  rectilinear.  We  have  the 
following  expressions: 

Act  =  —  ?2O2  —  ?oo59  (T  —  i  goo) 

AS  =  -  I4"s6  +  '/i6o  (T  -  1900) 
Whence  for  1900: 

R.  A.  /*  Decl.  M' 

8M  Comp.  i7h  iom  55^233  -  ?oo77  +  24°  57'  io'.'39  -  '.'003. 

No.  4419.    p  Herculis.   S  2161. 

The  magnitudes  are  4*6  and  5^5.  The  early  observers  neglected  the  fainter  star,  so  that  the 
p.m.  computed  independently  for  that  star  would  not  be  very  accurate.  The  micrometric  differ- 
ence gives: 

Aa  =  —  ?252  —  ?ooo4  (T  —  1900) 

AS  =  +  2'/67  +  '.'006  (T  -  1900) 

whence  for  1900: 

R.  A.  it  Decl.  >>.' 

5?5  Comp.  I7h  20™  13^709  —  50036  +  37°  14'  i8'.'32  +  '.'002. 

Nos.  4556  and  4557.  95  Herculis.   S  2264. 

The  position  of  the  mean  was  computed  with  the  probable  errors  indicated  for  each  component. 
Then  by  means  of  the  micrometrical  measurements,  assuming  the  stars  relatively  fixed,  we  have 
Aa=  o?437;  A8=  i"u.     From  these  differences  the  positions  of  the  separate  stars  are  derived. 
No.  4571.  70  Ophiuchi  c.g.=  Er  2271.   S  2272. 

The  annual  parallax  may  be  taken  as  o"is.  This  binary  system  has  a  period  of  88.4  years 
according  to  See  (Stellar  Systems),  whose  orbit  is  adopted  in  determining  the  relation  of  the  center 
of  gravity  of  the  two  components,  which  are  of  magnitudes  4M3  and  ^S.  Both  stars  have  been  well 
observed;  but  it  seemed  well  to  reduce  the  observations  of  the  fainter  star  to  the  places  of  the 
brighter  star  by  means  of  the  differences  resulting  from  the  adopted  orbit.  This  done,  it  is  found 
that  the  proportional  part  of  the  entire  distance,  p  (reckoning  from  the  brighter,  toward  the  fainter 
star),  at  which  the  center  of  gravity  is  situated  is, 

from  meridian-observations  of  R.  A.,  .48  ±  .02 
from  meridian-observations  of  decl.,  .42  ±  .03 

The  mean,  .45  p,  has  been  adopted  as  the  most  probable  result,  since  the  result  from  declina- 
tions, though  having  a  larger  probable  error,  is  less  likely  to  suffer  from  systematic  errors  due  to 
the  proximity  of  the  two  stars.  Thus  the  mass  of  the  fainter  star  in  terms  of  that  of  the  brighter  is 
.82.  It  does  not  seem  probable,  in  any  case,  that  the  fainter  star  has  a  larger  mass  than  the  brighter. 
The  following  table  gives  quantities  which,  added  to  the  positions  computed  from  the  catalogue- 
place  of  the  center  of  gravity,  will  give  the  predicted  place  of  the  principal  star.  Multiplying  the 
tabular  numbers  by  —1.22,  and  adding  as  before,  gives  the  corresponding  positions  of  the  fainter 
component 


Date. 

Ao. 

AS. 

Date. 

Aa. 

AS. 

Date. 

Aa. 

AS. 

1816 

s 

+  .011 

it 

+  .Si 

1856 

-?I76 

ft 

+  I.IO 

1892 

+  .036 

It 

-  .86 

1820 

-.027 

+  1.24 

1860 

-.171 

+  .87 

1896 

+  -°S3 

-  -5° 

1824 

—  .061 

+  I-53 

1864 

-.161 

+  .60 

1900 

+  .047 

+  .16 

1828 

—  .091 

+  1.70 

1868 

-.147 

+  -33 

1904 

+  .014 

+  .76 

1832 

-.117 

+  1.78 

1872 

-.128 

+  .04 

1908 

—  .024 

+  I.2I 

1836 

-•139 

+  1.80 

1876 

—  .104 

-  .24 

1912 

-•059 

+  I.SO 

1840 

-.154 

+  1.74 

1880 

-•°7S 

-  -5* 

1916 

—  .090 

+  1.67 

1844 

-.166 

+  1.64 

1884 

—  .040 

-  -75 

1920 

-.116 

+  1.76 

1848 

-.174 

+  i-S° 

1888 

—  .002 

-  .90 

1924 

-.138 

+  1.78 

1852 

-.177 

+  1.32 

276  PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    1900 

Nos.  5433  and  5434.   61  Cygni.   Br  2744-5.   S  2758. 

The  magnitudes  of  the  components  are  assumed  to  be  5*5  and  6™i.  Although  the  micrometrical 
measures  of  this  double  star  are  numerous  and  accurate,  the  change  in  position  angle  is  so  small 
that  it  does  not  suffice  for  the  computation  of  an  orbit  that  is  even  fairly  approximate.  It  might  be 
assumed,  however,  with  much  plausibility,  that  the  observed  arc  can  be  accurately  represented  by 
a  parabola,  following  the  precedent  adopted  with  first  orbits  of  comets.  But  in  the  present  instance 
it  has  been  found  that  not  even  this  device  would  be  of  any  service,  since  the  direction  of  periastron 
is  still  indeterminate.  Accordingly,  as  a  last  resort,  and  in  order  to  provide  more  reliable  means 
for  predicting  the  positions  of  the  two  components,  the  combined  effect  of  curvature  of  path  and 
variation  of  proper-motion  has  been  computed  from  the  meridian-observations  in  each  coordinate, 
assuming  this  effect  to  be  proportional  to  the  square  of  the  time-interval,  T,  expressed  in  centuries, 

from  the  epoch  1875.    We  have  for  £  — ^ : 


R.  A.  R.  A.  Decl. 

V) 


61' Cygni      (f  800389=)          +'.'0460      -.0016! 


6i2  Cygni  (—.00129=)  —  .0152  +.0204] 
Taking  these  as  the  basis  of  further  computations,  we  may  gain  some  idea  of  the  relative  masses 
of  the  component  stars  of  this  system  in  the  following  manner.  Let  the  unit  of  mass  be  that  of  the 
brighter  star,  and  a,  the  mass  of  the  fainter  star.  Dr.  Bergstrand  determines  the  coefficient  of  the 
centennial  term  in  r2  for  the  differences  in  declination  between  the  two  stars  to  be  +"0134;  and 
the  corresponding  term  in  right-ascension,  —  '.'0460.  (Roy.  Soc.  Upsala,  Ser.  IV.  Vol.  I,  No.  3.) 
These  values  are  probably  far  more  accurate  than  those  which  are  derived  from  the  meridian- 
observations,  +  "0220  and  —"0612  respectively.  The  ratio  of  Dr.  Bergstrand's  terms,  —3.43,  may 
be  taken  as  a  known  quantity,  therefore,  so  that  if,  for  orbital  effect  alone,  b  denotes  the  coefficient 
of  i2  in  declination-equations  of  the  fainter  star,  then  —3.43  b  will  be  the  corresponding  coefficient 
for  right-ascension.  Further,  let  A/^,  denote  the  centennial  variation  of  the  proper-motion  upon  a 
great  circle,  due  to  assumption  of  uniform  rectilinear  motion  (see  Introduction,  as  well  as  the  note 
on  Groombridge  1830,  No.  3112),  then  we  shall  have  the  following  equations: 


From  6I1  R.  A.,  0.796        +  3.43  a  b  =  +  '.'0460 

6i2  R.  A.,  0.796  -p  -  3.43  6  =-  .0152 

A 

611  Decl.,  0.605  _J-?_  i.ooa  b  =  —.0016 

612  Decl.,  0.605  —  —  +  i.  oo  b  =  +  .0204 

The  solution  of  these  equations  leads  to  the  following  values  of  the  unknowns  : 

Auo 

—  =  +  "0163          o  =  +  1.16          b  =  +  '.'00841          ab  =  +  '.'00975 

Varying  the  assumptions  adopted  in  the  foregoing,  values  of  a  and  —  ^    similar   to   these   are 

2 

derived,  and  it  is  found  that  a  value  of  a  less  than  unity  is  not  inconsistent  with  the  data.  One 
may  rather  confidently  conclude  that  neither  star  has  twice  the  mass  of  the  other,  and  no  great  error 
will  be  committed  if  it  be  assumed  that  the  masses  are  equal.  The  comparatively  small  differ- 
ence of  magnitude  of  the  two  components  is  favorable  to  this  assumption;  and  there  is  always  a 
probability  in  such  cases  that  the  mass  of  the  brighter  star  is  not  less  than  that  of  the  fainter  — 
a  probability  which  has  been  sustained  in  the  computations  for  this  Catalogue  in  every  instance 
where  the  data  were  really  adequate  to  a  decision.  Accordingly,  the  masses  are  here  assumed  to  be 
equal.  This  being  the  case,  one-half  of  the  observed  effect  of  perspective  upon  the  proper  motion 
of  the  center  of  gravity  in  a  great  circle  will  be  found  in  the  mean  of  the  square-terms  in  right- 
ascension  and  declination  respectively,  already  determined  (A). 


APPENDIX   II  277 

+  "046  -  "01 « 
from  R.  A.,  =       '2\   ^       =  +'.'0194 

-  "002  +  "020 

from  (fccl.,  =        ;  x   6og         =  +  "0155 

The  mean  is  +"0174,  which  chances  to  agree  very  closely  with  that  derived  from  the  equa- 
tions (B).  We  may,  therefore,  adopt  as  the  perspective  effect  observed  in  the  meridian-observa- 
tions: A/UO  =  +  "034,  with  a  probable  error  of  perhaps  ±  "020. 

A/XO  may  also  be  computed  according  to  the  formula  of  Seeliger  (A.N.,  Bd.  154,  s.  67.  See  also 
previous  note  on  Groomb  1830).  For  this  purpose  let  us  assume:  fi0  =  s"2o;  ir  =  '.'34;  I  =  —  62  km. 
The  latter  quantity  is  the  result  for  motion  in  the  line  of  sight  derived  at  the  Yerkes  Observatory,  in 
kind  compliance  with  the  author's  request.  This  will  give  us  A^,  =  +  '022,  in  very  fair  agreement 
with  that  derived  from  meridian-observations.  We  may  assume  that  this  result  is  entitled  to  twice 
the  weight  of  A^  from  meridian-observations,  and  this  leads  to  the  value  of  A/*0  (the  perspective 
effect)  finally  adopted: 

A^  =  +  "026         A/u  =  +  "021          A^'  =  +  "016 

This  means  that  the  proper-motion  of  61  Cygni  is  now  increasing  at  about  this  rate  ( +  '.'026)  per 
century,  due  to  the  perspective  effect  of  approach  upon  the  angular  motion  in  a  great  circle  of  the 
projected  uniform  rectilinear  motion  of  the  point  midway  between  the  two  stars.  Combining 
this  with  the  effect  of  orbital  motion  as  determined  by  Dr.  Bergstrand,  on  the  assumption  that 
one-half  the  effect  is  applicable  to  each  star  (and  remembering  that  the  effect  on  "secular  variation" 
is  twice  this  amount),  we  have: 

AM  A/t' 

611  Cygni,  effect  of  perspective  term    +  "0206  +  "oi$8 
61*  Cygni,  effect  of  orbital  term           +   .0460  —   .0134 

-I-    '.'067  =  +  ^0056     +     .002 

612  Cygni,  effect  of  perspective  term    +  "0206  +  "01 58 
6i2  Cygni,  effect  of  orbital  motion         —  .0460  +   .0134 

—   .025  =  —  '0022      +     .029 

It  will  be  remembered  that  these  quantities  were  determined  directly  from  the  meridian-observa- 
tions at  the  outset  (equations  A  giving  one-half  these  terms).  We  therefore  have  the  following 
comparison  between  the  values  directly  determined  from  the  meridian-observations  and  those 
resulting  from  adjustment,  as  above,  and  adopted: 


Direct       Adjusted 

6I1  Cygni.     A^,  = 

+  '.'092      +  '.'067 

6I1  Cygni.     A/A'  = 

—     .OO3        +     .002 

6i2  Cygni.     Ap,  = 

—    .030     —    .025 

6i2  Cygni.     Aii'  = 

+  .041     +  .029 

The  agreement  appears  to  be  fairly  satisfactory,  and  the  secular  variations  and  values  of  A/*  and 
A/,  as  they  would  have  otherwise  appeared  in  the  Catalogue,  are  corrected  for  perspective  and 
orbital  effects  as  herein  adopted. 

Nos.  5832  and  5833.   "Z  2922. 

For  1900  we  have  5M9-6"7,  22",  185°  for  S  2922.  There  is  a  companion  of  B,  10"  28"  155°. 
The  two  principal  stars  differ  little  in  right-ascension.  The  meridian  difference  agrees  badly  with 
the  result  from  micrometrical  measures.  In  order  to  produce  better  agreement,  the  solution  of  the 
equations  in  right-ascension  for  No.  5832  (the  fainter  star,  which  is  of  6^7)  has  been  somewhat 
forced  by  the  rejection  of  Br'y.,  Pi.,  Tay.,  and  Paristt. 


278 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    1 900 


No.  6172.  Br.  3198.  85  Pegasi.   p  733. 

This  is  a  binary  with  a  period  of  about  25.7  years,  according  to  Burnham,  whose  orbit  is  here 
adopted  for  special  discussion  of  irregular  proper-motion.  The  magnitudes  of  the  components  are 
6"o  and  nfo  respectively.  The  meridian-observations  have  a  total  weight  of  only  22.5  in  R.  A., 
and  of  25.2  in  declination,  much  less  than  the  weights  for  any  other  binary  treated  in  these  notes. 
They  give  for  the  proportional  distance  of  the  center  of  gravity  to  the  entire  distance  from  the  bright 
to  the  faint  star: 

From  right-ascensions    0.51  ±  .16 

From  declinations          0.84  ±  .20 

Mean  by  weights  0.64  ±  .13 

This  corresponds  to  a  mass  for  the  faint  star  of  1.8  —  the  bright  star  having  been  taken  as  the  unit. 
The  aspect  of  these  numbers  lends  plausibility  to  the  hypothesis  of  greater  mass  for  the  fainter  star. 
But  the  meridian-observations  are  not  entirely  inconsistent  with  the  hypothesis  of  equality  of  mass, 
as  may  be  supposed  from  the  probable  error.  There  is  no  other  instance  in  which  it  has  been  pos- 
sible to  demonstrate  with  a  strong  preponderance  of  probability  that  the  fainter  component  of  a 
binary  star  has  the  greater  mass,  while  the  strong  natural  inference  must  be  in  favor  of  greater  mass 
for  the  brighter  component,  especially  when  the  discrepancy  in  brightness  is  very  great,  as  in  the 
present  instance.  Accordingly,  it  is  here  assumed  that  the  two  masses  are  sensibly  equal  and  that 
the  center  of  gravity  is  halfway  between  the  two  stars.  The  Catalogue  gives  the  position  of  the 
center  of  gravity.  Adding  to  this  position  quantities  derived  from  the  following  table,  we  have  for 
the  respective  dates  the  positions  of  the  brighter  star.  In  like  manner  the  position  of  the  fainter 
star  is  obtained  from  this  table  after  reversal  of  signs. 


Date. 

Aa. 

AS. 

Date. 

Aa. 

AS. 

1880 

I90S-7 

s 
+  .024 

—  .12 

1895 

1920.7 

s 
+  .004 

It 

+  .38 

1881 

1906.7 

+  .019 

-.16 

1896 

1921.7 

+  .008 

+  .36 

1882 

1907.7 

+  .OI2 

-.18 

1897 

1922.7 

+  .OI2 

+  -34 

1883 

1908.7 

+  .001 

-.18 

1898 

i923-7 

+  .016 

+  •3° 

1884 

1909.7 

—  .006 

—  .12 

1899 

1924.7 

+  .018 

+  .26 

1885 

1910.7 

—  .014 

-.04 

1900 

I925-7 

+  .022 

+  .21 

1886 

1911.7 

—  .020 

+  .08 

1901 

+  .024 

+  .16 

1887 

1912.7 

—  .020 

+  .18 

1902 

+  .026 

+  .10 

1888 

I9I3-7 

—  .O2O 

+  .24 

1903 

+  .027 

+  .04 

1889 

1914.7 

—  .OI9 

+  .30 

1904 

+  .027 

—  .02 

1890 

I9IS-7 

—  .Ol6 

+  -34 

1905 

+  .026 

-.08 

1891 

1916.7 

—  .OI2 

+  .38 

1906 

+  .O22 

-•13 

1892 

1917.7 

-.009 

+  •39 

1893 

1918.7 

—  .O05 

+  .40 

1894 

1919.7 

.OOO 

+  .40 

APPENDIX  III. 

SYSTEMATIC  CORRECTIONS  AND  WEIGHTS. 


APPENDIX  III. 

SYSTEMATIC  CORRECTIONS  AND  WEIGHTS. 

The  principal  points  concerning  the  formation  of  the  systematic  corrections  and  weights  con- 
tained in  this  Appendix  have  been  explained  in  the  articles  upon  these  subjects  contained  in  Volume 
XXIII  of  the  Astronomical  Journal  (Nos.  534,  536,  540,  541,  545,  549,  and  550).  There  has  been 
frequent  occasion  to  allude  to  these  quantities  in  the  Introduction  to  the  present  volume.  The 
Systematic  Corrections  herein  contained  are  the  result  of  an  extension  and  thorough  revision  of  the 
tables  contained  in  Nos.  549  and  550  of  the  Astronomical  Journal. 

The  tables  which  follow  give  : 

Aaa.  Systematic  corrections  in  right-ascension  that  vary  with  the  argument,  a,  are  given  in  the 
first  table.  Bracketed  with  Aaa  is  sometimes  given  A'a«,  the  coefficient  of  a  term  of  correc- 
tion, A'oatgS.  The  distinction  between  these  quantities  is  that  Aaa  is  a  correction  com- 
posed of  a  constant  in  combination  with  a  term  periodic  with  right-ascension.  At  any  particu- 
lar value  of  a  it  is  constant  for  all  declinations.  This  may  be  termed  the  equinox-correction. 
But  in  some  cases  there  is  associated  with  this  a  term  which  might  be  called  the  A'a.  term. 
It  is  not  only  periodic  in  a,  but  at  the  same  time  varies  with  the  declination  —  more  commonly 
as  tg  8.  Among  other  causes  the  term  in  A'aa  may  be  attributed  to  an  annual  periodic  error 
in  determining  the  polar  point  of  the  instrument,  so  that,  in  reducing  transits  there  is  an  out- 
standing error  in  them  of  the  form,  n  tgS,  with  n  having  an  annual  period.  In  some  cases 
there  may  be  a  sensible  error  of  annual  period  in  determination  of  collimation.  This  would 

produce  an  error  in  the  transits  of  the  approximate  form,  A'a.  (tg tg  * ),  in  which  p  i 

\     2  2j 

the  polar  distance  of  a  given  star,  and  P  is  the  mean  polar  distance  of  the  clock  stars 
employed. 

Aos.  Systematic  corrections  in  right-ascension  that  vary  with  the  declination  alone  are  given 
in  the  table  next  following  that  for  Aaa.  They  may  be  due  to  irregularities  of  pivots,  personal 
errors  of  the  observers,  errors  of  illumination,  and  a  variety  of  causes.  For  convenience  of  in- 
terpolation, Aaj  cos  8  is  given  in  the  tables  for  declinations  higher  than  80°.  Between  +80° 
and  —80°  Aaj  is  given,  as  it  is  to  be  applied  to  observed  right-ascension^ without  multiplica- 
tion by  cos  8. 

AaM.  At  the  foot  of  the  pages  giving  Aaj  are  given  the  systematic  corrections  for  Magnitude- 
equations,  AaM,  of  the  several  catalogues.  The  values  of  AaM  are  probably  more  reliable  for 
stars  brighter  than  7^0  than  they  are  for  fainter  stars;  but  they  should  still  be  good  approxi- 
mations in  most  cases  down  to  8™o,  or  fainter.  Values  of  AaM  marked  *  are  not  the  result  of 
observation,  but  are  mean  values  computed  from  —  !oo69  (M  — 3.5). 

The  total  correction  to  be  applied  to  the  right-ascension  found  in  the  original  catalogues  of 
observation  is  :  Ao  =  Aaa  +  Aaj  +  AaM,  where  Aa.  may  be  taken  as  Aaa  +  A'aa  tg  8,  when- 
ever the  latter  term  becomes  sensible. 

Corrections  to  the  right-ascensions  of  the  Zones  of  the  Astronomische  Gesellschaft  follow  in  the 
next  table.  These  corrections  were  derived  with  very  great  care  and  are  based  upon  more  than 
2,900  quasi-standards.  In  determination  of  AaM  beyond  seventh  magnitude,  much  assistance  was 
derived  from  the  comparisons  of  the  A.  G.  zones  with  each  other  and  with  Pulk  75,  instituted  by 
Dr.  Auwers.  (Ast.  Nach.,  Vol.  161,  Nos.  3842-3-4.) 

279 


is 


280  PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    1 900 


DECLINATIONS. 

AS..  Corrections  in  declinations  that  vary  with  the  right-ascension  alone  as  an  argument  are 
given  next  after  the  tables  for  A.  G.  zones  —  right-ascension.  Corrections  of  this  form  may  be 
attributed  to  annual  effects  of  temperature,  etc.,  upon  the  instrument  and  its  environment, 
neglected  variation  of  latitude,  and  effect  of  faulty  astronomical  constants  adopted  in  reduction 
from  apparent  place  to  epoch  of  catalogue,  especially  in  earlier  times. 

A8j.  Systematic  corrections  in  declination,  with  the  argument  declination,  are  found  in  the  next 
table.  In  the  case  of  Br  1755  the  arguments  5°  apart  do  not  suffice.  A  special  table  of  correc- 
tions, ASj,  for  Br  1755  appears  under  Remark  (n)  at  the  end  of  these  tables.  A8{  is  easily 
accounted  for  through  the  effects  of  insufficiently  corrected  errors  of  graduation,  flexure, 
refraction,  etc.  In  some  cases  these  curves  have  been  analyzed  and  attributed  to  their  probable 
sources  (see,  especially,  Ast.  Jour.,  Vol.  XXIII,  pp.  120-122,  126,  157-162,  210,  etc.). 

Then  follow  corrections  in  declination  of  the  Zone-Catalogues  of  the  Astronomische  Gesellschafl. 

The  full  systematic  correction  in  declination  is:    AS  =  A8a  -f  AS^. 


^  ./i  Next  follow  tables  of  weights  that  have  been  employed  in  the  computations  for  this  Catalogue. 

These  were  prepared  from  the  probable  errors  of  the  residuals  found  in  solution  from  the  standard 
stars.  For  the  catalogues  of  highest  precision,  only  the  principal  standard  stars  were  employed. 
In  computing  and  successively  revising  the  weights,  particular  attention  was  devoted  to  the  pro- 
gressive relation  of  the  weights  to  number  of  observations.  It  has  been  assumed  that  there  is  a 
probable  error  («b)  that  is  not  affected  by  the  number  of  observations  but  is  inherent  in  the 
instrument,  observer,  or  environment;  or  what  is  much  the  same  thing,  this  part  of  probable  error 
may  be  considered  to  be  due  in  part  to  the  practical  impossibility  of  determining  all  the  minor 
peculiarities  of  curves  of  systematic  correction.  This  amounts  to  the  assumption  that  when  a 
certain  number  of  observations  is  reached  in  a  series  of  observations,  the  probable  error  is  no  longer 
sensibly  diminished  by  increase  in  the  number  of  observations.  Usually,  the  weaker  the  catalogue, 
the  smaller  this  maximum  number  of  observations  will  be.  Combined  with  this  is  the  ordinary 

probable  error  of  observation  (ei)  which  diminishes  proportionally  with  — :=,  n  being  the  number 

V  n 

of  observations.    Obviously  the  probable  error  (ec)  of  the  catalogue-place  will  be: 


In  the  solution  of  such   equations  for  determining  eg  and  «1(  it  was  customary  to  substitute  — 

for  eo,  in  which  r  represents  a  trial  ratio  for  fl,  such  as  i,  i£ 4,  5,  6 8.    Then  by 

«o 

means  of  auxiliary  tables  that  value  of  r  is  found  which  best  harmonizes  with  the  probable  errors 
found  for  the  residuals  arranged  in  groups  according  to  the  number  of  observations.  The  adopted 
probable  error  of  the  unit  of  weight  is  ±'.30,  repeatedly  verified  as  the  computation  progressed. 

For  convenience  in  the  formation  of  normal  equations  for  determination  of  Aoo  and  A/XO,  etc., 
only  the  denominations  of  weight  represented  in  the  left-hand  columns  of  these  tables  were  used. 
This  permits  the  formation  of  auxiliary  tables  in  compact  forms  that  greatly  expedite  the  formation 
of  the  normal  equations. 

When  the  zenith-distance  of  a  star  observed  at  a  given  observatory  is  more  than  72°,  it  has  been 
customary  in  the  computations  for  this  Catalogue  to  multiply  the  weights  for  right-ascensions,  as 
given  in  the  tables,  by  certain  factors  presently  to  be  given.  In  like  manner  factors  are  adopted 
for  reducing  the  weights  in  declination,  beginning  with  65°  of  zenith  distance.  The  adopted 
factors  are: 


APPENDIX   III 


28l 


Z.   D.  FACTORS. 


Right-Ascension 

Declination 

Right-Ascension 

Declination 

Z.  D. 

Factor 

Z.  D. 

Factor 

Z.  D. 

Factor 

Z.  D. 

Factor 

7*° 

0.9 

65° 

0.9 

78° 

0.6 

73° 

0.6 

73 

0.9 

66 

0.9 

79 

o-S 

74 

°-5 

74 

0.8 

67 

0.8 

80 

0.4 

75 

o-S 

75 

0.8 

68 

0.8 

81 

0.25 

76 

0.4 

76 

0.7 

69 

0.8 

82 

0.1 

77 

0.4 

77 

0.7 

70 

0.7 

78 

o-3 

7i 

0.7 

79 

O.2 

72 

0.6 

80 

O.I 

These  weights  can  only  be  regarded  as  rough  estimates.  For  many  of  the  catalogues  they  are 
probably  too  large.  For  a  few  catalogues,  indicated  in  the  notes,  special  factors  were  employed. 

The  body  of  the  tables  contains  under  the  designation  of  each  catalogue  the  number  of  observa- 
tions that  corresponds  to  the  weight  found  on  the  same  line  at  the  extreme  left. 

It  is  scarcely  necessary  to  say  that  these  weights  are  relative  only.  They  are  based  upon  the 
assumption  that  the  system  of  this  Catalogue,  in  comparison  with  an  individual  catalogue  of 
observation,  is  nearly  absolute. 

Finally,  come  the  Remarks,  or  Notes,  which  have  been  limited  to  the  cases  most  in  need  of 
explanation.  These  are  referred  to  in  the  tables  by  numerals  inclosed  in  parentheses. 


282 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    1900 


SYSTEMATIC    CORRECTIONS    IN    RIGHT -ASCENSION.     Aafl 


Br  1755  R  (i) 

Pi  oo 

Groomb  10 

Kon  15 

Grwis 

DptisR(4) 

h 

s                 s 

s               s 

s                s 

s 

s 

s 

O 

—  .065      —  .019  tg  5* 

+  .101     +.042  tgS 

+  .035     -.027tgS 

-.082 

-.025 

+  •034 

I 

—  .079      —.012 

+  .103    +.027 

+  .046    -.037 

-.083 

—  .022 

+  .034 

2 

—  .095      —  .005 

+  .106     +.009 

+  .054    -  .045 

—  .084 

—  .018 

+  .032 

3 

—  .098      +  .004 

+  .HO     —.013 

+  .058    -  .049 

-.084 

-.015 

+  .027 

4 

—  .093     +.011 

+  .115    -.037 

+  .058    -  .050 

-.085 

—  .Oil 

+  .021 

5 

—  .087     +  .020 

+  .119     —.060 

+  .055    —.048 

-.085 

-.007 

+  •013 

6 

—  .081     +.024 

+  .124    —.083 

+  .047     —  .042 

-.085 

—  .004 

+  .004 

7 

-.077    +.027 

+  .128     —.107 

+  .036    —  .034 

-.085 

—  .OO2 

-.005 

8 

-.077    +.031 

+.132    -.127 

+  .023    -  .023 

-.085 

.000 

—  .OI4 

9 

-.083    +.031 

+  .134   -.133 

+  .008     —  .010 

—  .084 

.000 

—  .021 

10 

—  .091     +.029 

+.136    -.129 

—  .007    +  .003 

-.084 

—  .001 

-.027 

ii 

—  .096     +  .025 

+  .136    —.107 

—  .022       +.OI6 

-.083 

—  .002 

-.032 

12 

—  .096     +.019 

+  .135    -.084 

-.035       +.027 

—  .082 

-.005 

-•°34 

13 

—  .090       +.012 

+  .133    —.018 

—  .046       +.037 

-.081 

-.008 

—  •034 

14 

—  .085       +  .005 

+.130    +.053 

-  .054       +  .045 

-.080 

—  .OI2 

-.032 

IS 

—  .083       —  .004 

+  .126     +.065 

—  .058       +  .049 

-.080 

-.015 

-.027 

16 

—  .081     —.on 

+  .121       +.O7O 

—  .058       +  .050 

-.079 

—  .019 

—  .021 

17 

—  .079     —.020 

+  .117    +.071 

-  .055       +  .048 

-.079 

-.023 

-.013 

18 

—  .076     —  .024 

+  .112       +.071 

—  .047       +  .042 

-.079 

—  .026 

—  .OO4 

19 

—  .071     —.027 

+  .108    +.071 

-  .036       +  .034 

-.079 

—  .028 

+  .005 

20 

—  .069     —.031 

+  .104     +.071 

-  .023       +  .023 

-.079 

—  .030 

+  .014 

21 

-.063    -.031 

+  .IO2       +.070 

—  .008     +.010 

—  .080 

-.030 

+  .021 

22 

—  .059     —.029 

+  .100     +.064 

+  .007    —  .003 

—  .080 

—  .029 

+  .027 

23 

-  .059    -  .025 

+  .100     +.042 

+  .O22      —.Ol6 

-.081 

-.028 

+  •032 

24 

—  .065     —.019 

+  .101     +.042 

+  .035      -.027 

—  .082 

-.025 

+  -°34 

- 

K6n20 

Schw  28 

Cape  30 

Camb  30 

Wrot  30 

StH30 

b 

s 

s                s 

s 

s 

s              s 

s 

0 

—  •034 

.000     —.015  tgS 

+  .022 

+  .031 

+  .038     +  .010  tg  S 

-•059 

I 

-•034 

—  .014 

+  .031 

+  .030 

+  .038     —.014 

-.058 

2 

-.034 

-.023 

+  .039 

+  .028 

+  .038     -.043 

—  .056 

3 

-•034 

-.025 

+  •045 

+  .025 

+  .038     —.072 

-•054 

4 

-.034 

-.025 

+  .048 

+  .023 

+  .038     —  .095 

-.051 

5 

-•034 

.000     —.023 

+  .050 

+  .020 

+  .038     -.108 

-.047 

6 

-•034 

.000       —  .020 

+  .049 

+  .017 

+  .038     —.107 

-.044 

7 

--034 

—  .016 

+  •045 

+  .014 

+  .038     —  .092 

—  .040 

8 

-•034 

—  .010 

+  •039 

+  .012 

+  .038     —  .064 

-•037 

9 

-•034 

—  .004 

+  .032 

+  .010 

+  .038     —  .029 

-•°3S 

10 

-•034 

+  .003 

+  .023 

+  .009 

+  .038     +  .007 

-•°33 

ii 

-•034 

.000     +.009 

+  .013 

+  .009 

+  .052     +.039 

-•°33 

12 

-•034 

.000     +.015 

+  .004 

+  .009 

+  .058     +  .062 

-•033 

13 

-•034 

+  .014 

-.005 

+  .010 

+  .058     +  .073 

-•°34 

14 

-•034 

+  .023 

-.013 

+  .OI2 

+  .°SS      +-°74 

-.036 

JS 

—  •034 

+  .025 

—  .019 

+  .015 

+  .050      +  .066 

-.038 

16 

-•034 

+  .025 

—  .022 

+  .017 

+  .042      +  .054 

—  .041 

17 

-•034 

.000     +  .023 

—  .024 

+  .O2O 

+  .037      +.043 

-•°4S 

18 

-•034 

.000       +  .020 

-.023 

+  .023 

+  .033      +  .036 

—  .048 

19 

-.034 

+  .016 

—  .019 

+  .026 

+  .027      +.033 

-.052 

20 

-•034 

+  .OIO 

-.013 

+  .028 

+  .024      +  .033 

-•°S5 

21 

-.034 

+  .004 

-.006 

+  .030 

+  .024     +  .035 

-•°57 

22 

-•034 

-.003 

+  .003 

+  .031 

+  .026      +  .033 

-•°59 

23 

-.034 

—  .009 

+  .013 

+  .031 

+  .031      +.026 

-•°59 

24 

-•034 

.000    —.015 

+  .022 

+  •031 

+  .038     +  .010 

-•OS9 

*  Applicable  N.  of  J,  +  60°. 


APPENDIX   III 


283 


SYSTEMATIC   CORRECTIONS  IN  RIGHT-ASCENSION.    Aaa 


o 

Abo  30 

Grw  30 

Dptso 

Cape  33 

Madr  35 

Edinb  40 

h 

s 

s                 s 

s 

8 

s                 s 

0 

+  .014 

-.077       +  .oi4tg« 

—  .016 

+  .006 

—  .089       +  .009  tg  S 

—  .012 

I 

+  .014 

—  .070       +.014 

—  .014 

+  .006 

—  .082       +.003 

-.023 

2 

+  .015 

—  .060       +.014 

—  .on 

+  .007 

-.071       -.003 

—  .026 

3 

+  .016 

—  .050       +  .014 

—  .010 

+  .008 

—  .059       —  .009 

—  .OI9 

4 

+  .017 

—  .044       +.014 

-.009 

+  .OII 

—  .048       —.014 

—  .017 

5 

+  .017 

—  .044       +  .014 

-.009 

+  .014 

—  .040       —  .019 

—  .OI9 

6 

+  .018 

—  .050      +.QII 

—  .010 

+  .017 

—  .037        —.023 

—  .026 

7 

+  .018 

—  .060      +  .005 

—  .on 

+  .021 

-.039        -.024 

-.038 

8 

+  .018 

—  .072      —.007 

-.013 

+  .025 

—  .044        —  .024 

—  .048 

9 

+  .018 

—  .083       —  .022 

—  .016 

+  .028 

—  .050       —.022 

-.049 

10 

+  .018 

—  .090      —  .030 

—  .019 

+  .031 

—  .056        —.019 

-•°37 

ii 

+  .017 

—  .091       —.022 

—  .022 

+  .034 

-.059        -.015 

—  .028 

12 

+  .016 

-  .085     -  .005 

-.025 

+  -°3S 

—  .OS9       —  .009 

—  .022 

13 

+  .015 

—  .074      +.007 

-.027 

+  -°3S 

—  .056        —  .003 

—  .019 

14 

+  .014 

—  .060      +  .010 

—  .030 

+  -°3S 

-.051        +.003 

-.017 

IS 

+  .013 

—  .046      +  .001 

-.031 

+  •033 

-  .045        +  .009 

-.017 

16 

+  .013 

-.037     -.018 

-.032 

+  .031 

—  .042        +.014 

—  .019 

17 

+  .OI2 

-  -033    -  -035 

-.032 

+  .028 

—  .042        +.019 

-.023 

18 

+  .OI2 

—  .036      —  .042 

-.031 

+  .024 

—  .047        +.022 

—  .027 

19 

+  .OII 

—  .045     —  .038 

-.030 

+  .020 

—  .056        +.024 

-.027 

20 

+  .OII 

—  .056      —  .029 

—  .028 

+  .016 

—  .067        +.024 

—  .023 

21 

+  .OI2 

-  .068     -  .018 

-.025 

+  .013 

—  .078        +.022 

-.015 

22 

+  .012 

-.077    -.005 

—  .022 

+  .OIO 

—  .086        +.019 

—  .007 

23 

+  .013 

—  .080     +  .008 

—  .019 

+  .008 

-  .090        +  .015 

—  .007 

24 

+  .OI4 

—  .077      +.014 

—  .Ol6 

+  .006 

—  .089        +  .009 

—  .012 

Arm  40 

Cape  40 

Grw  40 

Grw  45 

Radcl  45 

Pulk45 

h 

s 

s 

s 

s 

s                 s 

s 

o 

+  .054 

—  .004 

+  .094 

+  .040 

+  .023         +.012  tgS 

+  .019 

I 

+  -°S3 

-.007 

+  .086 

+  •035 

+  .015      +.oii 

+  .019 

2 

+  -°53 

—  .009 

+  .078 

+  .029 

+  .005         +  .009 

+  .019 

3 

+  .053 

—  .on 

+  .070 

+  .O22 

—  .007         +  .005 

+  .020 

4 

+  -052 

-.013 

+.063 

+  .OI6 

—  .020        +.002 

+  .020 

5 

+  •053 

—  .014 

+  .058 

+  .OI6 

—  .034      —  .001 

+  .021 

6 

+  .052 

—  .014 

+  .054 

+  .005 

—  .046        —  .005 

+  .022 

7 

+  .052 

—  .014 

+  .052 

+  .OOI 

—  .057         —.008 

+  .023 

8 

+  -°S3 

-.013 

+  .052 

—  .001 

—  .066        —  .OIO 

+  .O24 

9 

+  -°53 

—  .Oil 

+  .054 

—  .002 

—  .072        —.OI2 

+  .02S 

10 

+  .054 

-.009 

+.058 

—  .OOI 

-.074        -.014 

+  .026 

ii 

+  .054 

-.007 

+  .064 

+  .OO2 

-.073        -.013 

+  .026 

12 

+  .054 

—  .004 

+  .071 

+  .006 

—  .068        —.OI2 

+  .027 

13 

+  -°5S 

—  .001 

+.079 

+  .OII 

—  .060      —.on 

+  .027 

14 

+  .056 

+  .001 

+  .087 

+  .017 

—  .050     —  .009 

+  .026 

15 

+  .056 

+  .003 

+  .094 

+  .024 

—  .038     —  .005 

+  .026 

16 

+  .056 

+  .005 

+  .IOI 

+.030 

—  .025       —  .002 

+  .025 

17 

+  .056 

+.006 

+  .107 

+.036 

—  .012         +.001 

+  .024 

18 

+  .056 

+  .006 

+  .III 

+  .041 

+  .001      +  .005 

+  .023 

19 

+  .056 

+.006 

+.113 

+.045 

+  .012        +.008 

+  .O22 

20 

+  -°SS 

+  .005 

+.113 

+  .047 

+  .021         +.010 

+  .021 

21 

+  -°SS 

+  .003 

+  .III 

+  .048 

+  .026        +.012 

+  .020 

22 

+  .054 

+  .OOI 

+  .107 

+  .047 

+  .029        +.014 

+  .019 

23 

+  .054 

—  .001 

+  .IOI 

+  .044 

+  .028        +.013 

+  .019 

24 

+  .°54 

—  .004 

+  .094 

+  .040 

+  .023         +.012 

+  .019 

284 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   IpOO 


SYSTEMATIC  CORRECTIONS  IN  RIGHT-ASCENSION.    Aaa 


Paris  45 

Stgoso 

GiZso 

Cape  50 

Grwso 

Pulk  55  * 

h 

s 

s 

s 

s 

s 

3 

o 

+.027 

+  .012 

—  .010  Sec.  8 

+.026 

+  .OII 

+  .007 

I 

+.025 

+  .009 

—  .009 

+  .026 

+  .007 

+  .007 

2 

+.023 

+  .007 

-.008 

+  .024 

+  .002 

+  .007 

3 

+  .022 

+  .004 

—  .006 

+.023 

-.003 

+  .007 

4 

+  .000 

+  .001 

—  .004 

+  .O2O 

-.007 

+  .007 

5 

+  .OIp 

—  .001 

—  .001 

+  .OI8 

—  .on 

+  .007 

6 

+  .018 

—  .004 

+  .002 

+  .OI6 

-.015 

+  .007 

7 

+  .018 

-.006 

+  .004 

+  .014 

-.017 

+  .007 

8 

+  .OI8 

-.007 

+  .006 

+  .012 

-.018 

+  .007 

9 

+  .019 

-.007 

+  .008 

+  .OII 

—  .018 

+  .007 

10 

+  .02O 

-.007 

+  .009 

+  .010 

-.017 

+  .007 

ii 

+  .021 

-.005 

+  .OIO 

+  .OO9 

-.015 

+  .007 

12 

+  .023 

—  .004 

+  .010 

+  .010 

—  .on 

+  .007 

13 

+  .025 

—  .001 

+  .009 

+  .OIO 

-.007 

+  .007 

14 

+  .027 

+  .OOI 

+  .008 

+  .012 

-.003 

+  .007 

15 

+  .028 

+  .004 

+.006 

+  .013 

+  .002 

+  .007 

16 

+  .030 

+  .007 

+  .004 

+  .016 

+  .007 

+  .007 

17 

+  .031 

+  .OIO 

+  .001 

+  .018 

+  .OII 

+  .007 

18 

+  •032 

+  .012 

—  .002 

+  .020 

+  .014 

+  .007 

19 

+  .032 

+  .014 

—  .004 

+  .022 

+  .017 

+  .OO7 

20 

+  •032 

+.015 

-.006 

+  .024 

+.018 

+  .OO7 

21 

+  •031 

+.015 

-.008 

+  .02S 

+  .018 

+  .007 

22 

+  .030 

+  .015 

-.009 

+  .026 

+  .017 

+  .007 

23 

+  .029 

+  .014 

—  .010 

+  .027 

+  .014 

+  .007 

24 

+  .027 

+  .OI2 

—  .010 

+  .026 

+  .OII 

+  .007 

Can-  ss 

StgosS 

Wash  60 

Cape  60 

Grw6o 

Stgo6o 

b 

s 

8 

s 

s 

s 

s 

0 

ooo 

+.065 

+.030 

+•035 

+.034 

+.065 

I 

+•037 

+  .O22 

+.031 

+  .032 

+•057 

2 

+.048 

+  .OI4 

+  .027 

+.028 

+.048 

3 

+.039 

+  .007 

+-023 

+  .024 

+.039 

4 

+.030 

—  .001 

+  .019 

+  .019 

+.030 

5 

+.023 

-.007 

+.016 

+  .014 

+.023 

6 

000 

+.016 

—  .012 

+•013 

+  .OIO 

+.016 

7 

+  .OH 

-.01$ 

+  .OIO 

+  .006 

+  .OI2 

8 

+.009 

-.CIS 

+  .009 

+  .003 

+  .009 

9 

+  .009 

—  .014 

+  .009 

+  .002 

+  .OO9 

10 

+  .012 

—.on 

+.009 

+  .OOI 

+  .012 

ii 

+.016 

—.006 

+  .OII 

+  .001 

+  .016 

12 

ooo 

+  .083 

.000 

+  .014 

+  -003 

+  .023 

13 

+.031 

+  .008 

+  .017 

+  .006 

+  •031 

14 

+  .040 

+  .016 

+  .02  1 

+  .OIO 

+  .040 

IS 

+.049 

+  .023 

+  .025 

+  .014 

+  .049 

16 

+  058 

+  .031 

+  .029 

+  .019 

+  .0S8 

J7 

+.065 

+  -°37 

+  •033 

+.023 

+  .065 

18 

ooo 

+.079 

+  .042 

+  .036 

+.028 

+  .078 

19 

+  .076 

+  .045 

+  .038 

+.031 

+  .076 

20 

+.079 

+  -04S 

+  .039 

+.034 

+  .079 

21 

+.079 

+  .044 

+  .040 

+.036 

+  .079 

22 

+.076 

+  .041 

+  .039 

+•037 

+  .076 

23 

+  .072 

+  .036 

+  -°37 

+.036 

+  .078 

24 

+.065 

+•030 

+  -°3S 

+•034 

+  .06S 

*  See  special  tables,  remark  (2). 


APPENDIX 


285 


SYSTEMATIC  CORRECTIONS  IN  RIGHT-ASCENSION.    Aaa 


Radcl  60 

Melb  60 

Paris  60 

Grw  64 

Harv6s 

Cape  65 

h 

s               s 

s                s 

s 

s 

s 

s 

o 

+  .034        +.022  tg  S 

+  .062     +  .o23tg6* 

+  .050 

+  .042 

-•033 

-.013 

I 

+  .O29        +  .O2O 

+  .053     +.028 

+  •045 

+  .039 

-•037 

-.013 

2 

+  .O24        +.OI5 

+  .045     +.031 

+.039 

+  .036 

—  .040 

-.013 

3 

+  .020        +.010 

+  .037     +.032 

+.034 

+  •033 

-•043 

—  .012 

4 

+  .OI6        +.OO5 

+  .029     +.031 

+.028 

+.030 

--045 

—  .012 

5 

+  .OI4        —.OOI 

+  .022     +.027 

+  .024 

+  .026 

—  .046 

—  .012 

6 

+  .OI2        —.OO8 

+  .0l8       +.022 

+  .O2O 

+  .024 

-•045 

—  .012 

7 

+  .012        —.013 

+  .01$       +.OI5 

+  .017 

+  .O22 

-•043 

—  .OI2 

8 

+  .OI4        —.Ol8 

+  .OI4       +.OO8 

+  .016 

+  .020 

—  .040 

—  .012 

9 

+  .Ol6        —.O2I 

+  .016     —.001 

+  .016 

+  .020 

-•037 

—  .012 

10 

+  .020       —.023 

+  .O2O       —  .009 

+  .OI8 

+  .O2O 

-•033 

—  .Oil 

ii 

+  .02S       -.023 

+  .O25       —.Ol6 

+  .021 

+  .021 

-.028 

—  .Oil 

12 

+  .030       —  .022 

+  .032       -.023 

+  .025 

+  •023 

—  .024 

—  .Oil 

13 

+  .035       —.O2O 

+  .041       —.028 

+  .030 

+  .026 

—  .020 

—  .Oil 

14 

+  .040       —.OI5 

+  .049       -.031 

+  .036 

+  .029 

—  .016 

—  .Oil 

15 

+  .044       —.OIO 

+  .058       -.032 

+  .041 

+  .032 

-.013 

—  .012 

16 

+  .048       -  .005 

+  .065       -.031 

+  .047 

+  -°3S 

—  .012 

—  .012 

17 

+  .050     +.001 

+  .072       —.027 

+  .051 

+  .039 

—  .Oil 

—  .OI2 

18 

+  .052    +.008 

+  .076       —.022 

+  -°55 

+  .041 

—  .012 

—  .012 

19 

+  .052    +.013 

+  .079       -.015 

+  .058 

+  .043 

-.013 

—  .OI2 

20 

+  .050     +.018 

+  .080       -  .008 

+  .059 

+  .045 

—  .016 

—  .OI2 

21 

+  .048       +.021 

+  .078     +.001 

+  .059 

+  -04S 

—  .020 

—  .012 

22 

+  .044     +.023 

+  .074     +.009 

+  -OS7 

+  .04S 

-.024 

-.013 

23 

+  .039     +  .023 

+  .069     +.016 

+  •054 

+  .044 

-.028 

-.013 

24 

+  .034      +.022 

+  .062    +  .023 

+  .050 

+  .042 

-•°33 

-.013 

Bruss  65 

Pulk  65 

Grw7a 

Melb  70 

Wash  75 

Cord  75 

h 

S                     5 

9 

8 

s 

s 

s 

0 

+  .067     -  .003  tg  8 

-.008 

+  .039 

+.050 

—  .001 

+  .021    (9) 

I 

+  .057     +.005 

-.008 

+  -°37 

+  .041 

—  .002 

+  .012 

2 

+  .046     +.014 

-.007 

+  .034 

+  .032 

-.003 

+  .002 

3 

+  .036       +.021 

—  .OO6 

+  .031 

+  .023 

-.003 

-.008 

4 

+  .026       +.027 

-.005 

+  .028 

+  .014 

—  .004 

—  .018 

5 

+  .OI8       +.031 

—  .OO4 

+  .025 

+  .007 

—  .OO4 

—  .026 

6 

+  .013       +.033 

-.003 

+  .O22 

+  .002 

-.004 

-•°33 

7 

+  .010     +.033 

—  .OO2 

+  .020 

—  .OOI 

—  .004 

-•°37 

8 

+  .009       +.031 

—  .002 

+  .OI8 

—  .OOI 

-.003 

-•039 

9 

+  .012       +.026 

—  .OOI 

+  .017 

+  .001 

—  .002 

-•°39 

10 

+  .OI7       +.O2O 

—  .OOI 

+  .017 

+  .005 

—  .OOI 

-•°3S 

ii 

+  .O24       +.012 

—  .001 

+  .017 

+  .012 

.000 

—  .030 

12 

+  .033       +.003 

—  .002 

+  .019 

+  .020 

+  .OOI 

—  .022 

13 

+  .043       -.005 

—  .002 

+  .O2I 

+  .029 

+  .002 

-.013 

14 

+  .OS4       —-OI4 

-.003 

+  .023 

+.038 

+  .003 

-.003 

15 

+  .064       —.021 

—  .004 

+  .026 

+  .047 

+  .003 

+  .007 

16 

+  .074       —.027 

-.005 

+  •030 

+.056 

+  .004 

+  .017 

17 

+  .082       —.031 

—  .006 

+  -°33 

+.063 

+  .004 

+  .025 

18 

+  .087       -.033 

-.007 

+  -°3S 

+.068 

+  .004 

+  .033 

19 

+  .090       —.033 

-.008 

+  .038 

+  .071 

+  .004 

+  .036 

20 

+  .091       —.031 

—  .OO9 

+  .040 

+  .071 

+  .003 

+  .038 

21 

+  .088       -.026 

—  .009 

+  .041 

+  .069 

+  .002 

+  .038 

22 

+  .083       —.020 

—  .009 

+  .041 

+.065 

+  .OOI 

+  -°3S 

23 

+  .076       —.OI2 

—  .009 

+  .040 

+.058 

.000 

+  .029 

24 

+  .067       —.003 

-.008 

+  .039 

+.050 

—  .001 

+  .02  1 

*  S.  of  -50° 


286 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    IQOO 


SYSTEMATIC   CORRECTIONS  IN  RIGHT-ASCENSION.    Ada 


Madr  75 

Pulk  75 

Becker  75 

Harv  75 

Paris  75 

AGZ75 

h 
0 

s                s 
+  .043      +.031  tgS 

s                s 
—  .003      +.OI9X* 

Values  of  k 

s 

+  .008 

s 

-.013 

s 

+  .072 

~~   OO  I         +.OI2 

+  .008 

J-  ,060 

2 

~r  .043      —  -°~v 
+  .044      +.018 

.OOO        +  .OO4 

0 

+  .008 

—  .Oil 

+  •045 

3 

+  .046      +  .007 

+  .OO2        —  .OO5 

-20       -     .73 

+  .008 

—  .010 

+  .030 

»; 

4 

+  .047         .000 

+  .004        —.014 

"IS        -     -52 

+  .008 

-.008 

+  .017 

I 

"3 

5 

+  .048     —  .004 

+  .OO6        —  .O2O 

-io     -   -33 

+.008 

—  .006 

+  .008 

1 

O                  OO 

4) 

6 

+  .049     —.005 

+  .OO8        —  .024 

+  10        +     .28 

+.008 

—  .004 

+  .003 

8 

7 

+  .050     —  .004 

+  .OO9        —  .024 

+  20       +     .51 

+.008 

-.003 

+  .004 

j! 

8 

+  .05  1      —  .002 

+  .010       —.022 

+  30       +     .72 

+  .008 

—  .001 

+  .OIO 

*•£? 

9 

+  .051      —.001 

+  .010     —.019 

+  40       +     .91 

+  .008 

.000 

+  .017 

•0 

10 

+  .05  2       —  .OO2 

+  .010     —.015 

+  50       +1.09 

+  .008 

+  .00  1 

+  .025 

B 

ii 

+  .OS2       —.007 

+  .009       —.OIO 

+  00       +I.2S 

+  .008 

+  .002 

+  .032 

<u 

en 

12 

+  .051        -.013 

+  .008       —  .007 

n 

+  .008 

+  .002 

+.036 

tf 

13 

+  .051        —.Ol8 

+  .006       —  .004 

M 

+  .008 

+  .OOI 

+•038 

1 

14 

+  .050       —.019 

+  .OO5       —.OOI 

B 

+  .008 

.000 

+  .039 

15 

+  .048       —.Ol8 

+  .003     +.001 

E 

+  .008 

—  .001 

+  .039 

d 

16 

+  .047       -.OIS 

+  .OO  I        +.OO3 

u 

+  .008 

—  .003 

+  .042 

«£ 

17 

+  .046     —.on 

—  .001     +.007 

I 

+  .008 

-.005 

+  .046 

M 

18 

+  .045     -.005 

—  .003     +.DII 

+  .008 

—  .007 

+  •053 

* 

19 

+  .044       +  .002 

—  .004     +  .015 

* 

+  .008 

—  .008 

+  .062 

K 

20 

+  .043       +.012 

—  .005        +.020 

+.008 

—  .010 

+  .070 

21 

+  .043       +.021 

—  .005        +.O24 

+  .008 

—  .on 

+.077 

22 

+  .O42       +.O26 

-.005       +.025 

+  .008 

—  .012 

+  .081 

23 

+  .042       +.029 

—  .004       +.023 

+  .008 

-.013 

+  .079 

24 

+  .043       +.031 

—  .003       +.OI9 

+.008 

-.013 

+  .072 

Cape  80 

Grw  80 

Melb  80 

Saff  85 

Strassb  85 

Cape  85 

h 

s 

s 

s 

s 

s 

s 

0 

+  .047 

+.038 

+.052 

+  .014 

+  .014 

+  .023 

I 

+  .045 

+•037 

+.049 

+  .014 

+  .014 

+  .O2O 

2 

+  .042 

+.036 

+  .046 

+  .014 

+  .014 

+  .017 

3 

+  .040 

+  •034 

+  .041 

+  .014 

+  .014 

+  .OI4 

4 

+•037 

+  •033 

+.036 

+  .014 

+  .014 

+  .011 

5 

+-034 

+  .032 

+  •030 

+  .014 

+  .014 

+  .009 

6 

+  .031 

+  .032 

+  .025 

+  .014 

+  .014 

+.008 

7 

+  .029 

+  .031 

+  .021 

+  .014 

+  .014 

+  .008 

8 

+  .027 

+  .031 

+  .01? 

+  .014 

+  .015 

+.008 

9 

+  .026 

+  .031 

+  .015 

+  .014 

+  .016 

+  .009 

10 

+  .025 

+.031 

+  .013 

+  .014 

+  .016 

+  .OIO 

ii 

+  .026 

+  .032 

+  .OI4 

+  .014 

+  .017 

+  .013 

12 

+  .027 

+•033 

+  .016 

+  .014 

+  .017 

+  .015 

13 

+  .029 

+  .034 

+  .019 

+  .014 

+  .017 

+.018 

14 

+  .032 

+•035 

+  .O22 

+  .014 

+  .018 

+  .O2I 

IS 

+.034 

+.036 

+  .027 

+  .014 

+.018 

+  .024 

16 

+•037 

+  •037 

+  .032 

+  .014 

+  .018 

+  .O27 

17 

+  .040 

+.038 

+  .038 

+  .014 

+  .017 

+  .029 

18 

+  •043 

+  •039 

+  .043 

+  .014 

+  .017 

+  .030 

19 

+  -°4S 

+  .040 

+  .047 

+  .014 

+  .017 

+  .030 

20 

+  047 

+  .040 

+  .051 

+  .014 

+.016 

+  .030 

21 

+  .048 

+  .040 

+  •053 

+  .014 

+.016 

+  .029 

22 

+  .049 

+  •039 

+  -°5S 

+  .014 

+.015 

+  .028 

23 

+  .048 

+.039 

+  .054 

+  .014 

+.015 

+  .025 

24 

+  .047 

+.038 

+  .052 

+  .014 

+  .014 

+  .023 

APPENDIX   HI 


287 


SYSTEMATIC  CORRECTIONS  IN  RIGHT-ASCENSION.    Aafl 


PulkSs 

Radcl  90 

Cine  90 

Cape  90 

Grw  90 

Berl  90 

I 

s 

s 

s 

s 

s 

s 

o 

+  .014 

+  .024 

+  .016 

+  .024 

+  .045 

+  .02  1 

I 

+  .015 

+  .023 

+  .015 

+  .023 

+.045 

+  .020 

2 

+  .016 

+  .O22 

+  .014 

+  .021 

+.045 

+  .019 

3 

+  .018 

+  .020 

+  .013 

+  .020 

+.045 

+  .018 

4 

+  .019 

+  .018 

+  .013 

+  .OI9 

+  .045 

+  .017 

5 

+  .O2I 

+  .OI6 

+  .013 

+  .018 

+  .045 

+  .017 

6 

+  .023 

+  .OI4 

+.013 

+  .017 

+  .045 

+  .016 

7 

+  .O24 

+  .013 

+.013 

+  .016 

+  •045 

+  .OI6 

8 

+  .02S 

+  .011 

+  .014 

+  .OI6 

+  .045 

+  .OI6 

9 

+  .026 

+  .OIO 

+  .015 

+  .017 

+  .045 

+  .017 

10 

+  .O26 

+  .009 

+  .016 

+  .OI7 

+  .045 

+  .017 

ii 

+  .026 

+  .009 

+  .017 

+  .OI8 

+  .045 

+  .018 

12 

+  .02J 

+  .010 

+.018 

+  .019 

+  .045 

+  .019 

13 

+  .O24 

+  .OII 

+  .019 

+  .O2  1 

+  .045 

+  .O2O 

14 

+  .023 

+  .012 

+  .02O 

+  .022 

+  •045 

+  .021 

3 

+  .022 
+  .O2O 

+  .014 
+  .OI6 

+  .O2I 
+  .021 

+  .023 
+  .O25 

+  .045 
+  .045 

+  .022 
+  .023 

17 

+  .OI8 

+  .OI8 

+  .021 

+  .026 

+  .045 

+  .023 

18 

+  .017 

+  .020 

+  .O2  1 

+  .027 

+  .045 

+  .O24 

19 

+  .016 

+  .021 

+  .O2  1 

+  .027 

+  .045 

+  .024 

20 

+  .OI4 

+  .023 

+  .020 

+  .027 

+  .045 

+  .024 

21 

+  .014 

+  .024 

+  .OI9 

+  .027 

+  .045 

+  .023 

22 

+  .013 

+  .025 

+  .OI8 

+  .026 

+  .045 

+  .023 

23 

+  .OI4 

+  .025 

+  .017 

+  .025 

+  .Q45 

+  .O22 

24 

+  .014 

+  .024 

+  .016 

+  .024 

+  •045 

+  .O2  1 

Madn  90 

Lisb  90 

Melb  90 

Pulk  92 

Lick  95 

Berl  95 

h 

s 

s 

s 

s 

s 

, 

0 

+  .007 

+.015 

+  .049 

+.023 

+  .024 

+  .022 

I 

+.007 

+  .014 

+  .048 

+  .O22 

+  .024 

+  .O22 

2 

+  .006 

+  .014 

+  .048 

+  .O2I 

+.023 

+  .O2  1 

3 

+.006 

+  .015 

+  .047 

+  .020 

+.023 

+  .020 

4 

+  .006 

+  .015 

+  .046 

+  .019 

+.023 

+  .020 

5 

+  .005 

+  .015 

+  .045 

+  .018 

+.024 

+  .OI9 

6 

+.005 

+.015 

+  .044 

+  .017 

+  .024 

+  .018 

7 

+  .005 

+  .016 

+  •043 

+  .OI7 

+.025 

+  .OI8 

8 

+  .006 

+.016 

+  .042 

+  .017 

+.027 

+  .017 

9 

+  .006 

+  .017 

+  .041 

+  .017 

+.028 

+  .017 

10 

+  .007 

+  .017 

+  .041 

+  .OI8 

+  .029 

+  .017 

ii 

+  .007 

+  .017 

+  .041 

+  .019 

+.031 

+  .017 

12 

+.008 

+  .017 

+  .041 

+  .O2O 

+  .032 

+  .018 

13 

+  .008 

+.018 

+  .042 

+  .021 

+  .033 

+  .OI8 

14 

+  .009 

+.018 

+  .042 

+  .O22 

+.033 

+  .OI9 

15 

+  .009 

+  .017 

+  •043 

+  .023 

+.033 

+  .02O 

16 

+  .009 

+  .017 

+  .044 

+  .024 

+.033 

+  .O2O 

17 

+  .OIO 

+  .017 

+  .045 

+  .O25 

+.033 

+  .O2  1 

18 

+  .010 

+  .017 

+  .046 

+  .026 

+.032 

+  .O22 

19 

+  .OIO 

+.016 

+  .046 

+  .O26 

+.031 

+  .022 

20 

+  .009 

+  .016 

+  .047 

+  .026 

+  .030 

+  .023 

21 

+  .009 

+  .015 

+  .048 

+  .026 

+.028 

+  .023 

22 

+  .008 

+.015 

+  .049 

+  .02S 

+  .027 

+  .023 

23 

+  .008 

+.015 

+  .049 

+  .O24 

+  .026 

+  .023 

24 

+  .007 

+.015 

+  .049 

+  .023 

+  .024 

+  .022 

288 


PRELIMINARY   GENERAL  CATALOGUE   OF   STARS   FOR    1 900 


SYSTEMATIC  CORRECTIONS  IN  RIGHT-ASCENSION.    Aa. 


Alb  oo 

Lick  oo 

Mun  oo 

Cape  oo 

Cine  oo 

S.  of  +  30°  N.  of  +  30° 

h 

s 

5 

s 

s 

s                    s 

0 

.000 

+  .040 

-.008 

+  .005  (25) 

+  .025         +.026 

I 

+  .038 

-.008 

+  .004 

+  .O22            +.026 

2 

+  .036 

-.008 

+.003 

+  .019            +.026 

3 

+  -°33 

-.008 

+  .OO2 

+  .OIO            +.026 

4 

+  .031 

—  .008 

+  .001 

+  .014            +.026 

5 

.OOO 

+  .030 

-.008 

.OOO 

+  .013            +.026 

6 

.OOO 

+  .028 

-.008 

—  .001 

+  .013            +.026 

7 

+  .028 

-.008 

—  .OO2 

+  .OI4            +.O26 

8 

+  .028 

—.008 

—  .OO2 

+  .015            +.O26 

9 

+  .029 

-.008 

—  .002 

+  .0iy            +.026 

10 

+  .030 

-.008 

—  .OO2 

+  .O2O            +  .026 

ii 

.OOO 

+  .032 

—.008 

—  .002 

+  .023            +.026 

12 

.coo 

+  •034 

-.008 

—  .OOI 

+  .027            +.O26 

13 

+  .036 

—  .008 

.OOO 

+  .030            +  .026 

14 

+  .038 

-.008 

+  .001 

+  .033            +.026 

3 

+  .041 
+  .043 

—  .008 
-.008 

+  .002 
+  .003 

+  .036            +.026 
+  .038            +.026 

17 

.OCX} 

+  .044 

-.008 

+  .004 

+  .039            +.026 

18 

.000 

+  .046 

-.008 

+  .OO5 

+  .039            +.026 

19 

+  .046 

-.008 

+  .006 

+  .038            +.026 

20 

+  .046 

—  .008 

+  .006 

+  .037            +.026 

21 

+  -°4S 

-.008 

+  .006 

+  .035            +.026 

22 

+  .044 

-.008 

+  .006 

+  .032            +.O26 

23 

+  .042 

-.008 

+  .006 

+  .029            +  .026 

24 

.000 

+  .040 

-.008 

+  .005 

+  .025            +.026 

Bonn  oo 

Cape  06 

h 

8 

s 

O 

+  .028 

+.005 

I 

+  .028 

+  .004 

2 

+  .028 

+.003 

3 

+  .028 

+  .002 

4 

+  .028 

+  .001 

5 

+  .026 

.000 

6 

+  .023 

—  .001 

7 

+  .O2O 

—  .002 

8 

+  .018 

—  .002 

9 

+  .019 

—  .002 

10 

+  .020 

—  .OO2 

ii 

+  .022 

—  .002 

12 

+  .025 

—  .OOI 

13 

+  .027 

.OOO 

14 

+  .029 

+  .001 

IS 

+  .029 

+  .002 

16 

+  .029 

+  .003 

17 

+  .030 

+  .OO4 

18 

+  .030 

+  .OOS 

19 

+  -030 

+  .006 

20 

+  .029 

+  .006 

21 

+  .029 

+  .006 

23 

+  .028 

+  .006 

23 

+  .028 

+  .006 

24 

+  .028 

+  .OOS 

APPENDIX  HI 
SYSTEMATIC  CORRECTIONS  IN  RIGHT-ASCENSION.    Aas 


289 


s 

Br  1755 

Pi  oo 

Groom  b  10 

Kon  15 

Grw  15 

Dpt  15  R  (4) 

• 

s 

s 

s 

s 

s 

8 

+90 

—  .023  Sec.  i 

+  .053  Sec.  S 

+  .012  Sec.  J 

—  .007  Sec.  S 

+  .000  Sec.  S 

+  .007  Sec.  « 

8S 

-.023 

+  .048 

+  .014 

—  .006 

+  .000 

+  .007 

80 

-.023 

+  .045 

+  .017 

—  .004 

+  .000 

+  .007 

+80 

-.132 

+  •259 

+  .098 

—  .020 

.000 

+  •043 

75 

-.089 

+  .173 

+  •073 

+  .008 

.000 

+  -°35 

70 

—  .067 

+  .140 

+  .044 

+  .006 

.000 

+  -°35 

6S 

-•°55 

+  .143 

-.028 

-.025 

—  .001 

+  .028 

60 

-.044 

+  .152 

—  .046 

—  .024 

-.005 

+  .016 

+  SS 

—  .024 

+  •'43 

—  .014 

—  .002 

—  .on 

+  .003 

BO 

-.007 

+  .114 

—  .022 

+  .009 

—  .019 

—.009 

45 

+  .OOI 

+  .072 

—  .046 

+  .006 

—  .037 

—.019 

40 

+  .005 

+  .058 

-•°35 

.000 

-.034 

35 

+  .007 

+  .062 

-.005 

—  .041 

3° 

+  .007 

+  .066 

-.009 

-.043 

+  25 

+.006 

+  .063 

—  .010 

—  .040 

20 

+  .004 

+  .056 

—  .010 

-.034 

15 

+.003 

+  .040 

-.008 

—  .022 

IO 

+  .OO2 

+  .013 

-.006 

-.006 

+  5 

+  .002 

-.013 

-.003 

+  .009 

o 

+  .OOI 

—  .029 

+  .004 

+  .O2  1 

-  5 

—  .000 

-.038 

+  .OIO 

+  .028 

10 

—  .007 

-.048 

+  .006 

+  •031 

15 

-.018 

-•057 

+  .001 

+  .034 

20 

—  .023 

-.068 

—  .004 

+  .039 

25 

—  .024 

—  .084 

-.009 

+  .046 

-3° 

-.017 

-.118 

—  .016 

+  .058 

35 

—  .146 

40 

-.184 

45 

—  .240 

5° 

55 

-60 

__^_ 

65 

70 

75 

-80 

-80 

85 

-90 

CORRECTION  ON  ACCOUNT  OF  MAGNITUDE  EQUATION.    AaM 

Magn. 

I 

S 

+  .031 

s 

+  .OIO 

's 
+  .027 

s 

+  .O22 

S 
+  .018 

s 
+  .017* 

4 

-.006 

—  .002 

-.005 

—  .004 

—  .OO4 

-.003 

5 

—  .019 

-.006 

—  .016 

-.013 

—  .Oil 

—.010 

6 

-.031 

—  .OIO 

—  .027 

—  .022 

-.018 

-.017 

7 

—  •043 

-.015 

-•037 

-.031 

—  .026 

-.024 

8 

—  .056 

—  .OI9 

-.048 

—  .040 

-•033 

-.031 

*  Not  derived  from  observations;  see  p.  279  under  AOM 


290 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    1 900 


SYSTEMATIC  CORRECTIONS  IN  RIGHT-ASCENSION.     Aa8 


s 

K6n2o 

Schw  28 

Cape  30 

Camb  30 

Wrot  30 

St  H  30 

o 

s 

s 

s 

s 

s 

s 

+90 

.000  Sec.  S 

+  .005  Sec.  i 

+  .021  Sec.  S 

+85 

.000 

+  .OIO 

+  .O2I 

80 

.000 

+  .015 

+  .021 

+80 

.000 

+  .089 

+  .121 

75 

.000 

+  .081 

70 

.000 

+  .061 

65 

.000 

+  •047 

+  .024 

60 

-.003 

+  -°35 

+  .024 

+  55 

—  .010 

+  .020 

+.018 

5° 

—  .022 

+  .OO2 

+  .009 

45 

—  .024 

-.008 

-.003 

40 

—  .016 

-.007 

—  .008 

35 

—  .004 

+  OO2 

-.009 

30 

+  .002 

+  .OI6 

+  .019 

—  .005 

+  25 

+  .005 

+  .024 

+  .031 

+  .002 

20 

+  .005 

+  .025 

+•033 

+  .006 

IS 

+  .003 

+  .014 

+  .023 

+  .007 

10 

.000 

-.009 

+  .009 

+  .004 

+  5 

-.003 

—  .OI4 

.000 

—  .004 

o 

-.006 

-.017 

-.008 

-.007 

-.008 

-  5 

—  .009 

-.017 

+  .002 

-.013 

—  .008 

10 

—  .012 

—  .010 

+  .006 

—  .019 

-.008 

IS 

-.CIS 

—  .001 

+  .004 

-.025 

—  .002 

20 

—  .OI9 

+  .007 

—  .002 

—  .016 

+  .004 

25 

-.023 

+.015 

-.008 

-.008 

-.015 

-3° 

+  .021 

-.015 

+  .002 

—  .O4O 

35 

+  .027 

-.045 

40 

+  •033 

-.052 

45 

+  .043 

-.060 

50 

+  .OS9 

—  .070 

55 

+  .077 

-.082 

-60 

+  .094 

-.098 

65 

+  .III 

-.116 

70 

+  -*37 

-•143 

75 

+  .181 

-.189 

-80 

+  .271 

-.282 

-80 

85 

-90 

CORRECTION  ON  ACCOUNT  OF  MAGNITUDE  EQUATION.    AaM 

Magn. 

I 

S 

+  .026 

s 

+  .017* 

s 

+  •035 

S 

+  .003 

s 
+  .012 

S 

+  .013 

4 

-.005 

-.003 

-.007 

—  .001 

—  .002 

-.003 

5 

—  .016 

—  .010 

—  .021 

—  .002 

-.007 

—  .008 

6 

—  .026 

-.017 

-•°35 

-.003 

—  .012 

-.013 

7 

-•037 

—  .024 

-.049 

-.005 

—  .Ol6 

—  .018 

8 

-.047 

-.031 

—  .063 

—  .006 

—  .021 

-.023 

APPENDIX   III 


29I 


SYSTEMATIC  CORRECTIONS  IN  RIGHT-ASCENSION. 


o 

s 

Abo  30 

Grwao 

Dpt30 

Cape  33 

Madras 

Edinb  40 

e 

+90 

+  .006  Sec.  « 

s 
—  .012  Sec.  S 

s 
+  .006  Sec.  i 

8 

s 
.000  Sec.  S 

s 
+  .012  Sec.  8 

85 

+  .008 

—  .019 

+  .006 

+  .022 

+  .002 

80 

+  .011 

—  .022 

+  .006 

+  .044 

-.008 

+80 

+  .063 

-.127 

+  -°37 

+  •253 

—  .046 

75 

+  .054 

-.069 

+  .026 

+  -247 

—  .070 

70 

+  .049 

—  .O2O 

+  .023 

+  .216 

-.081 

65 

+  •043 

+  .026 

+  -°33 

+  .171 

-.084 

60 

+  -°35 

+  .054 

+  •037 

+  .141 

-.06S 

+  55 

+  .028 

+  .061 

+  .036 

+  .124 

-•°33 

5° 

+  .023 

+  -°55 

+  -°33 

+  .116 

—  .Ol8 

45 

+  .018 

+  .041 

+  .031 

+  .089 

+  .110 

-.008 

40 

+  .OI2 

+  .025 

+  .029 

+  .079 

+  .098 

—  .008 

35 

+  .004 

+  .019 

+  .025 

+  .066 

+  -°73 

—  .OIO 

30 

—  .004 

+  .021 

+  .021 

+  .052 

+  -°53 

-.009 

+  25 

-.008 

+  .024 

+  .013 

+  •034 

+  •035 

—  .004 

20 

-.007 

+  .024 

+  .007 

+  .01$ 

+  .019 

—  .002 

IS 

-.006 

+  .023 

+  .003 

+  •003 

+  .004 

-.003 

IO 

-.005 

+  .016 

.OOO 

-.005 

-.006 

—  .004 

+  5 

—  .002 

+  .00$ 

-.003 

-.009 

-.013 

-.006 

0 

+  .002 

—  .OIO 

-.007 

—  .OI2 

—  .018 

—  .002 

-  5 

+  .006 

—  .O2O 

—  .010 

—  .OI4 

-.023 

+  .006 

10 

+  .010 

-.025 

-.013 

-.013 

-.031 

+  .004 

15 

+  .013 

—  .029 

—  .016 

—  .Oil 

—  .040 

—  .005 

16 

+.015 

~-°33 

-.017 

-.005 

-.049 

-.018 

25 

-.038 

+  .OOI 

-•°57 

-3° 

-.044 

+.004 

—  .064 

35 

+  .004 

-.066 

40 

.000 

-.071 

45 

-.005 

—  .076 

5° 

-.009 

-.084 

55 

-— 

—  .OIO 

-.094 

-60 

-.008 

—.108 

65 

-.003 

-.128 

70 

.000 

75 

.000 

-80 

.000 

-80 

.000  Sec.  S 

85 

.000 

-90 

.000 

CORRECTION  ON  ACCOUNT  OF  MAGNITUDE  EQUATION.    AaM 

Magn. 

I 

8 
+  .019 

8 
+  .O23 

B 
+  .022 

a 

+  .021 

s 

+.041 

s 

+  .016 

4 

—  .OO4 

—  .004 

-.003 

—  .OO4 

-.008 

-.003 

o 

—  .012 
—  .OI9 

-.013 

—  .022 

-.013 
—  .022 

-.013 
—  .021 

—  .024 
—  .041 

-.009 

—  .016 

8 

-.027 
-•035 

-.031 
—  .040 

-.030 
-•°39 

—  .029 
—  .038 

-.057 

-•073 

—  .022 

—  .028 

2Q2 


PRELIMINARY  GENERAL   CATALOGUE   OF   STARS   FOR    1900 


SYSTEMATIC  CORRECTIONS  IN  RIGHT-ASCENSION.    Aas 


s 

Arm  40 

Cape  40 

Grw  40 

Grw  45 

Radcl  45 

Pulk  45 

o 

s 

s 

s 

s 

s 

s 

+90 

+  .006  Sec.  8 

—  .014  Sec.  S 

.000  Sec.  S 

—  .004  Sec.  S 

.000  Sec.  S 

85 

-.005 

-.032 

—  .005 

-.003 

+  .001 

80 

-.015 

—  .041 

-.015 

—  .002 

+  .003 

+  80 

-.086 

-.236 

-.086 

—  .012 

+  .018 

7S 

—  .096 

-.174 

-•093 

.000 

+  .023 

70 

-.105 

-•131 

-.085 

.000 

+.018 

6S 

—  .109 

—  .101 

-.071 

+  .002 

+  .OII 

60 

-•093 

-.060 

—  .050 

+  .014 

+  .002 

+  SS 

—  .058 

—  .021 

—  .026 

+  .023 

—  .004 

5° 

—  .030 

-.005 

—  .Oil 

+  .024 

—  .OO7 

45 

—  .025 

+•037 

—  .001 

-.003 

+  .023 

—  .Oil 

40 

-.031 

+•033 

-.005 

.000 

+  .O22 

—  .012 

3S 

—  .032 

+.028 

—  .012 

—  .004 

+  .026 

—  .OIO 

30 

—  .022 

+  .02  1 

—  .012 

-.013 

+  .027 

-.008 

+  *5 

-.013 

+  .011 

—  .OO6 

—  .012 

+  .027 

—  .006 

20 

-.007 

—  .002 

-.005 

—  .008 

+  .02S 

-.003 

IS 

—  .004 

—  .010 

—  .Oil 

—  .OO4 

+  .019 

.OOO 

10 

+  .003 

—  .016 

—  .010 

+  .003 

+  .003 

+  .003 

+  s 

+  .005 

—  .016 

—  .002 

+  .006 

—  .Ol8 

+  .005 

0 

—  .006 

-.005 

+  .006 

,OOO 

—  .028 

+  .005 

-  s 

—  .008 

+  .OO2 

+  .OIO 

—  .ooa 

-.028 

+  .003 

10 

—  .001 

+.004 

+  •013 

+  .OOI 

—  .O2O 

.000 

IS 

+  .OII 

+  .002 

+  .012 

+  .001 

—  .019 

+  .002 

20 

+.025 

+  .004 

+  .010 

-.005 

—  .019 

+  .008 

2S 

+  .029 

+  .010 

+  .003 

-.018 

—  .O2O 

+  .OI8 

-3° 

+.030 

+  -OI3 

—  .OO3 

—  .023 

—  .021 

35 

+  .010 

40 

+  .OII 

45 

+  .011 

So 

+.016 

SS 

+  .O2I 

-60 

+  .O26 

6S 

+  .031 

70 

+  .038 

75 

+  .050 

-80 

+  -°7S 

-80 

+  .013  Sec.  S 

8S 

+  •013 

-90 

+  .013 

CORRECTION  ON  ACCOUNT  OF  MAGNITUDE  EQUATION.    AaM 

Magn. 

s 

5 

S 

s 

S 

s 

I 

+.019 

+  .O2O 

.000 

+.013 

+  -°33 

+  .011 

4 

—  .004 

—  .004 

.000 

-.003 

-.007 

—  .002 

5 

—  .Oil 

—  .OH 

.000 

-.008 

—  .O2O 

-.007 

6 

—  .019 

—  .020 

.000 

-.013 

-•°33 

—  .Oil 

7 

—  .027 

-.027 

.000 

—.018 

—  .046 

-.015 

8 

-•034 

~-°3S 

.000 

-.023 

-•°59 

—  .020 

APPENDIX   III 


293 


SYSTEMATIC   CORRECTIONS  IN  RIGHT-ASCENSION.    Aas 


s 

Paris  45 

Stgo  50 

Gi  Z  50 

Cape  50 

Grw  50 

Pulkss 

0 

s 

s 

B 

s 

s 

s 

+90 

.000  Sec.  J 

.000  Sec.  S 

—  .026  Sec.  8 

85 

+  .004 

—.014 

—  .013 

80 

+  .002 

—  .024 

-.008 

+80 

+  .014 

-•'35 

—  .046 

75 

.000 

—  .106 

—  .029 

70 

+  .007 

-.077 

-•°35 

65 

+  .019 

-•°S3 

-.023 

60 

+  .025 

-.031 

+  .004 

+  55 

+  .022 

-.009 

+  .003 

5° 

+  .OI2 

+  .005 

-.009 

45 

+  .001 

+  .006 

-.018 

40 

-.005 

+  .OOI 

—  .018 

35 

-.007 

-.007 

-.013 

3° 

-.007 

—  .Oil 

-.003 

+  25 

-.003 

—  .010 

+  .003 

20 

+  .OO2 

-.006 

+  .OO3 

'5 

+  .006 

.000 

+  .001 

10 

+  .006 

+  .003 

—  .003 

+  5 

.000 

+  .O02 

-.006 

0 

—  .002 

—  .012 

+.008 

+.003 

-.003 

-  5 

—  .002 

-.018 

+  .007 

+  .004 

10 

+  .OOI 

—  .021 

+.003 

+  .015 

15 

+  .OOI 

-.023 

.000 

+  .023 

20 

+  .001 

—  .025 

.000 

+  .023 

25 

+  .OOI 

—  .027 

.000 

-3° 

+  .OOI 

-•033 

-.006 

35 

-.044 

—  .026 

40 

-.052 

-.061 

45 

—  .056 

-•075 

5° 

-.054 

—  .072 

55 

—  .042 

— 

—  .040 

-60 

-.032 

—  .012 

65 

—.018 

+•033 

.000 

70 

+  .002 

+.064 

.000 

75 

+  .026 

+  .062 

.000 

-80 

+.059 

+.094 

.000 

-80 

+  .016  Sec.  « 

.000  Sec.  S 

«5 

+  .023 

.000 

-90 

+  .028 

.000 

CORRECTION  ON  ACCOUNT  OF  MAGNITUDE  EQUATION.    AaM 

Magn. 

I 

8 

+.013 

3 

+•031 

a 
+  .017* 

+  .026 

s 

+.008 

s 
+  .014 

4 

-.003 

-.006 

-.003 

-.005 

—  .002 

-.003 

I 

-.008 
-.013 

—  .019 

-.031 

—  .OIO 
-.017 

-.015 
—  .026 

-.005 
-.008 

-.009 
-.014 

7 

—  .019 

-.044 

—  .024 

-.036 

—  .012 

—  .020 

8 

—  .024 

—  .056 

-.031 

—  .046 

-.015 

—  .026 

294 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    IQOO 


SYSTEMATIC   CORRECTIONS  IN  RIGHT-ASCENSION.    Aag 


8 

Cart  55 

Stgo  55 

Wash  60 

Cape  60 

Grw  60 

Stgo  60 

O 

s 

s 

s 

8 

a 

> 

+  90 

—  .013  Sec.  S 

+  .009  Sec.  S 

—  .007  Sec.  S 

85 

-.013 

+  .009 

-.007 

80 

-.013 

+  .009 

—.008 

+  80 

-•°75 

+  .052 

-•045 

75 

+  •035 

-.032 

70 

+  .015 

-•037 

65 

—  .008 

—  .041 

60 

-.028 

—  .046 

+55 

-.030 

—  .046 

5° 

-.023 

-.044 

45 

—  .010 

+  .032 

—  .040 

40 

+  .016 

+  .O22 

-•°37 

35 

+  .024 

+  .012 

-.032 

3° 

+  .017 

+  .004 

—  .026 

+  »5 

+  .008 

--003 

—  .020 

2O 

+  .002 

—  .OIO 

-.013 

15 

—  .001 

—  .OIO 

—  .006 

IO 

-.003 

—  .004 

.000 

+  5 

-.004 

+  .004 

+  .006 

0 

—  .010 

—  .004 

+  .008 

+  .OII 

—  .010 

-  5 

-.015 

—  .003 

+  .OIO 

+  .013 

-.015 

IO 

—.018 

—  .002 

+.008 

+  .014 

-.018 

IS 

—  .020 

+  .001 

+  .OO2 

+  .OI2 

—  .020 

20 

—  .021 

+  .OO4 

—  .002 

+  .007 

—  .021 

25 

—.028 

+  .OI2 

+  .003 

+  .004 

-.028 

-3° 

-.044 

+  .026 

+  .020 

+  .OO2 

-.044 

35 

-•073 

+  .025 

+  .030 

-•°73 

40 

-•093 

+  .024 

+  .039 

-•°93 

45 

—  .100 

+  .044 

—  .100 

5° 

-•093 

+  .051 

-•°93 

55 

—  .046 

+  .059 

—  .046 

-60 

—.018 

+  .060 

-.018 

65 

-.005 

+  .046 

-.005 

70 

.000 

+  .030 

.000 

75 

.000 

+  .OI8 

.000 

-80 

.000 

+  .010 

.000 

-80 

+  .002  Sec.  J 

85 

+  .OOI 

-90 

.000 

CORRECTION  ON  ACCOUNT  OF  MAGNITUDE  EQUATION.    AaM 

Magn. 

I 

s 
+  .017* 

+  .017* 

s 

+.008 

+  .026 

» 
+  .015 

s 

+  .017* 

4 

-.003 

-.003 

—  .002 

-.005 

-.003 

-.003 

§ 

—  .010 

—  .010 

-.005 

—  .016 

—  .009 

—  .OIO 

6 

-.017 

-.017 

—  .008 

—  .026 

-.015 

-.017 

7 

—  .024 

—  .024 

—  .010 

-•°37 

—  .O2I 

—  .024 

8 

-.031 

-.031 

-.013 

—  .048 

-.027 

-.031 

APPENDIX 


295 


SYSTEMATIC  CORRECTIONS  IN  RIGHT-ASCENSION.    Aa$ 


s 

Radcl  60 

Melb  60 

Paris  60 

Grw  64 

Harv  65 

Cape  65 

0 

s 

s 

8 

s 

8 

" 

+90 

.000  Sec.  S 

—  .016  Sec.  J 

.000  Sec.  t 

—  .008  Sec.  S 

85 

—  .006 

—  .010 

.000 

-.008 

So 

—  .012 

-.002 

.000 

-.007 

+  80 

-.066 

-.014 

.000 

—  .041 

75 

-.066 

+  .019 

.000 

—  .004 

70 

—  .067 

+  .029 

.000 

+  •034 

65 

—  .062 

+  .028 

+  .005 

+  .045 

60 

-.049 

+  .017 

+  .008 

+  -°4S 

+  55 

—  .026 

+  .002 

+  .006 

+  .039 

50 

+  •005 

+  .003 

—  .004 

+  .031 

45 

+  .014 

+  .OI4 

-.013 

+  .022 

40 

+  .011 

-•034 

+  .OI9 

—  .020 

+  .018 

35 

+  .004 

—  .029 

+  .016 

—.026 

+  .016 

3° 

-.003 

—  .021 

+  .010 

-.024 

+  .016 

+  .OI2 

+  25 

-.003 

-.013 

+.006 

-.018 

+  .014 

+  .003 

20 

+  .001 

—  .006 

+  .004 

-.008 

+  .OI2 

—  .004 

15 

+.008 

—  .002 

+  .004 

—  .001 

+  .009 

-.008 

10 

+  .017 

+  .001 

+  .004 

+.003 

+  .OO4 

—  .Oil 

+  S 

+.016 

+  .OO2 

+  .003 

+.008 

—  .001 

—  .Oil 

o 

+.009 

.000 

—  .004 

+  .OII 

-.007 

—  .OIO 

-  5 

+  .002 

+.004 

-.007 

+  .OII 

—  .OIO 

—.008 

10 

—  .006 

+  .OII 

-.007 

+  .OIO 

—  .009 

—  .OOI 

15 

-.OI? 

+  .014 

-.007 

+  .004 

—  .012 

+  .010 

20 

-•°39 

+  .011 

—  .on 

.000 

—  .021 

+.026 

25 

-•°59 

+  .OOI 

—  .019 

.000 

-•°33 

+  .042 

-30 

—  .076 

-.006 

-.018 

.000 

—  .046 

+  .051 

35 

—  .010 

-.062 

+  .046 

40 

—  .016 

+.030 

45 

—  .024 

+  .O2I 

5° 

-.033 

+  .02$ 

55 

-•039 

— 

+  .046 

-60 

-.039 

+  .082 

6S 

-.027 

+  .IO9 

70 

+.008 

+  .123 

75 

+•043 

+  ."3 

80 

+.071 

+  .IO2 

-80 

+  .012  Sec.  $ 

+  .018  Sec.  « 

8S 

+  .007 

+  .010 

-90 

+  .003 

+  .006 

CORRECTION  ON  ACCOUNT  OF  MAGNITUDE  EQUATION.    AaM 

Magn. 

I 

s 

+  .025 

+  .016 

8 
+  .009 

s 

+  .020 

+  .028 

8 
+  .032 

4 

-.005 

-.003 

—  .OO2 

—  .004 

-.006 

-.006 

s 

-.015 

-.009 

-.005 

—  .012 

-.017 

—  .019 

6 

-.025 

—  .016 

—  .009 

—  .020 

—  .028 

-.032 

I 

-•035 
-•045 

—  .022 

—  .028 

—  .OI2 
—  .Ol6 

-.028 
—  .036 

—  .040 
-.051 

-.044 
-•057 

296 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    1 900 


SYSTEMATIC  CORRECTIONS  IN  RIGHT-ASCENSION.     Aa8 


s 

Bruss  65 

Pulk  65 

Grw  72 

Melb  70 

Wash  75 

Cord  75 

e 

s 

s 

s 

s 

s 

+  9° 

+  .021  Sec.  8 

—  .003  Sec.  S 

+  .010  Sec.  8 

.000  Sec.  8 

(9) 

85 

+  .008 

-.003 

+  .OIO 

.000 

80 

-.005 

-.007 

+  .OIO 

-.003 

+80 

—  .029 

-•039 

+  .058 

-.017 

75 

—  .069 

-.032 

+  -°39 

-.023 

70 

-.091 

—  .029 

+  .028 

-.023 

65 

—  .102 

—  .024 

+  .016 

—  .026 

60 

-•093 

—  .020 

+  .008 

—  .032 

+SS 

—  .067 

-.017 

+  .007 

-.038 

5° 

-•034 

—  .018 

+  .005 

—  .036 

45 

—  .Oil 

—  .023 

-.003 

—  .025 

40 

-.008 

—  .022 

—  .016 

+.018 

—  .010 

35 

-*M 

—  .019 

—  .020 

+  .OIO 

+.004 

30 

-.015 

—  .OI3 

-.018 

+.007 

+  .010 

-.008 

+  25 

-.013 

—  .004 

—  .013 

+  .009 

+  .OI2 

—  .003 

to 

—  .on 

.000 

—  .006 

+  .OIO 

+  .011 

+  .002 

15 

—  .on 

+.003 

—  .OOI 

+  .007 

+  .008 

+  .OO2 

10 

—  .010 

+.005 

+  .OO2 

+.003 

+  •003 

.OOO 

+  5 

-.003 

+  .007 

+  .006 

—  .OOI 

-.005 

—  .004 

o 

+.005 

+  .011 

+  .009 

-.007 

-.008 

—  .OO2 

-  5 

+.006 

+  .008 

+  .008 

—  .OIO 

—  .on 

+  .004 

10 

+.008 

+  .OOI 

+  .003 

—  .010 

—  .013 

+  .OIO 

IS 

+  .015 

-.006 

.OOO 

—  .009 

-.009 

+.016 

20 

+.023 

—  .OIO 

.OOO 

-.008 

—  .004 

+.017 

25 

+  .020 

.OOO 

—  .009 

—  .008 

+•013 

-3° 

+  .008 

.OOO 

-.009 

—  .016 

+.003 

35 

—  .006 

—  .018 

—  .OIO 

40 

-.004 

-.023 

—  .020 

45 

—  .006 

—  .024 

5° 

—  .on 

-.025 

55 

—  .019 

—.026 

-60 

-.032 

-.027 

65 

-.044 

—.028 

70 

-•°57 

-.023 

7S 

-.071 

—  .OIO 

80 

-.089 

.000 

-80 

—  .015  Sec.  8 

.000  Sec.  S 

»S 

—  .on 

.000 

-90 

—  .006 

.000 

CORRECTION  ON  ACCOUNT  OF  MAGNITUDE  EQUATION.    AaM 

Magn. 

I 

s 
+  .OIO 

s 

+  .O2O 

s 
+  .020 

s 
+  .016 

8 
+  .023 

9 
+  .018 

4 

—  .002 

—  .OO4 

—  .004 

-.003 

—  .004 

—  .OO4 

-.006 

—  .012 

—  .012 

—  .OIO 

-.013 

—  .on 

o 

—  .OIO 

—  .O2O 

—  ,O2O 

—  .016 

—  .022 

-.018 

I 

-.014 
—  .Ol8 

—  .029 
-•°37 

—  .028 
—  .036 

-.023 

—.030 

-.030 
-•°39 

-•025 
-.033 

APPENDIX   III 


297 


SYSTEMATIC  CORRECTIONS  IN  RIGHT-ASCENSION.    Aas 


s 

Madr  75 

Pulk75 

Becker  75 

Harv  75 

Paris  75 

AGZ75 

0 

3 

s 

9 

s 

s 

+90 

.000  Sec.  S 

—  .012  Sec.  S 

-.008  Sec.  * 

—  .002  Sec.  5 

—.012  Sec.  S 

85 

—  .004 

—  .012 

-.008 

—  .002 

-.006 

80 

-.013 

—  .014 

-.008 

—  .002 

.000 

+80 

-•°7S 

-.078 

—  .046 

—  .OI4 

.000 

75 

-.077 

-•054 

-.031 

-.013 

A 

70 

-•°39 

-•°39 

-.023 

—  .Oil 

4 

65 

-.007 

—  .024 

-.019 

—  .004 

00 

+  .016 

—  .008 

—  .016 

+.005 

• 

+  55 

+  •032 

—  .010 

—  .021 

+  .007 

+•023 

1 

5° 

+  .047 

—  .016 

-.025 

+  .003 

+  .029 

• 

45 

+  .048 

-.017 

—  .O2I 

+-003 

+  .031 

• 

40 

+  -°33 

—  .016 

—  .012 

+  .003 

+.028 

•3 

35 

+  .018 

-.015 

—  .OO2 

+  .005 

+  .017 

"8 

3° 

+  .009 

-.013 

-.005 

+  .007 

+  .007 

1 

+  25 

+  .004 

-.009 

—  .014 

+.006 

+.003 

J 

20 

.000 

—  .004 

-.017 

+  .004 

+  .OO2 

VJ 

IS 

—  .004 

+  .003 

—  .on 

+  .002 

+  .002 

IO 

-.008 

+  .008 

—  .006 

.OOO 

+  .OO2 

+  5 

-.013 

+  .010 

—  .005 

.OOO 

+  .002 

0 

-.013 

+  .OIO 

.000 

—  .OOI 

—  .002 

-  5 

-.007 

+  .OIO 

+  .009 

-.005 

—  .OIO 

10 

+  .OOI 

+.008 

+  .013 

—  .008 

—  .OI2 

15 

+.006 

+.005 

+  .013 

—  .006 

—  .Oil 

20 

+  .OII 

+  .OO2 

+  .OIO 

—  .OOI 

—  .009 

25 

+  .015 

+  .008 

+  .007 

-.006 

-3° 

+  .024 

+.005 

+  .017 

.000 

35 

+•034 

+.026 

40 

+  -°39 

45 

+  .038 

5° 

+  .031 

55 

+  .017 

— 

-60 

-.007 

65 

-.038 

70 

75 

80 

-80 

85 

-90 

CORRECTION  ON  ACCOUNT  OF  MAGNITUDE  EQUATION.    AaM 

Magn. 

I 

s 

+.030 

5 
+  .OIO 

a 
+  .O22 

s 

+  .016 

9 
+  .014 

4 

-.006 

—  .002 

—  .OO4 

-.003 

-.003 

—.018 

—  .006 

-.013 

—  .010 

-.008 

6 

-.030 

—  .010 

—  .022 

—  .016 

—  .014 

7 

—  .042 

-.014 

-.031 

-.023 

—  .OI9 

8 

-•054 

-.018 

—  .040 

-.030 

—  .024 

298 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   1 900 


SYSTEMATIC  CORRECTIONS  IN  RIGHT-ASCENSION.    Aas 


s 

Cape  So 

(10) 

Grw  80 

MelbSo 

Saff  85 

Strassb  85 

Cape  85 

o 

8                     S 

s 

s 

s 

5 

8 

+90 

+  .015  Sec.  S 

—  .006  Sec.  S 

.000  Sec.  8 

85 

+  .015 

—  .010 

+  .001 

80 

+  .OIO 

-.013 

+  .004 

+80 

+  .058 

-•07S 

+  .024 

75 

+  .029 

+  .038 

70 

+  .023 

+  .042 

65 

+  .019 

+  .038 

60 

+  .OII 

+  .033 

+SS 

+  .003 

+.025 

5° 

-.003 

+  .017 

45 

+  .003 

—  .006 

—.001 

+  .OIO 

—  .Ol6 

40 

+  .003 

-.009 

.000 

+.005 

—  .Ol6 

35 

+.003 

-.009 

+  .002 

.000 

—  .Ol6 

30 

+  .003 

-.008 

+  .005 

-.003 

-.015 

+  «5 

+  .OO3 

—  .006 

+  .009 

-.005 

—  .013 

•0 

—  .003 

-.003 

+  .008 

-.006 

-.008 

15 

-.005 

.000 

+  .004 

—  .006 

-.003 

10 

-.007 

+  .OO2 

—  .OO4 

-.003 

—  .003 

+  5 

—  .004 

+.004 

—  .Oil 

+.003 

-.003 

o 

.000 

+.005 

—.013 

+  .009 

-.003 

-  s 

+.003 

+.005 

—  .008 

+.008 

+  .OOI 

10 

+  .007 

+•003 

+.003 

+.005 

+  .007 

15 

+  .013 

+  .OOI 

+  .016 

+  .002 

+.016 

20 

+  .023 

+  .001 

+  .029 

—  .002 

+  .024 

»5 

+  .031 

+  .001 

+  .042 

-.007 

+.031 

-3° 

+  -°34 

+  .OOI 

+  .046 

—.010 

+•033 

35 

+  .045       +.014 

+.051 

-.015 

+.030 

40 

+  .O24 

+.056 

+.028 

45 

+  .053       +.034 

+•053 

+•025 

So 

+  .058 

+.047 

+.023 

5S 

+  .065       —  .029 

+  .029 

+.018 

-60 

-.025 

+  .008 

+.014 

6S 

—  .OO3       —.018 

—  .on 

+.009 

70 

-.003 

-.025 

+.003 

75 

—  .003       —.Ol8 

-•°35 

.000 

80 

—  .026 

-.048 

.000 

-80 

—  .005  Sec.  * 

-.008  Sec.  » 

.000  Sec.  8 

85 

—.005 

—  .008 

.000 

-90 

-.005 

-.008 

.000 

CORRECTION  ON  ACCOUNT  OF  MAGNITUDE  EQUATION.    AaM 

Magn. 

I 

s 
+  .025 

s 
+  .019 

s 

+  .OII 

+  .017* 

+.013 

8 
+  .019 

4 

-.005 

—  .004 

—  .002 

—  .003 

-.003 

-.004 

§ 

-.015 

—  .on 

-.007 

—  .010 

-.009 

—  .on 

o 

-.025 

—  .019 

—  .Oil 

-.017 

-.015 

—  .019 

7 

-•°35 

—  .026 

—  .016 

—  .024 

—  .021 

—  .026 

8 

-•°4S 

-•°34 

—  .020 

-.031 

-.027 

-•034 

APPENDIX 


299 


SYSTEMATIC  CORRECTIONS  IS  RIGHT-ASCENSION.    Aa8 


s 

PulkSs 

Radcl  90 

Cine  90 

Cape  90 

Grw  90 

Berl  90 

• 

s 

s 

s 

s 

s 

1 

+90 

+  .005  Sec.  S 

.000  Sec.  J 

—  .013  Sec.  S 

—  .006  Sec.  9 

85 

+  .002 

+  .009 

-.006 

-.006 

go 

.000 

+  .018 

+  .003 

-.006 

+80 

.000 

+  .104 

+  .018 

-•036 

75 

—  .016 

+  .104 

+  .030 

—.027 

7° 

—  .019 

+  .093 

+.006 

+  .027 

-.023 

65 

-.015 

+  .069 

+  .019 

+  .014 

—  .022 

60 

-.007 

+  .024 

+.028 

-.004 

—  .022 

+55 

+  .OO3 

—  .oos 

+•032 

-.015 

-.023 

5° 

+  .003 

—  .010 

+•034 

-.015 

—  .025 

45 

—  .002 

-.008 

+•031 

+  .020 

—.008 

—  .026 

40 

—  .004 

-.005 

+  .022 

+.016 

-.007 

—  .026 

35 

—  .OOI 

-.013 

+  .011 

+.013 

-.006 

-.023 

3° 

—  .001 

-.028 

+  .006 

+  .009 

-.006 

-.018 

+  25 

-.006 

-.031 

+  .006 

+  .004 

-.006 

-.013 

20 

-.008 

-.028 

+  .008 

+  .OOI 

—  .004 

-.008 

15 

—  .OO6 

—  .020 

+  .OI6 

+  .001 

—  .003 

—  .004 

IO 

-.003 

-.013 

+  .014 

.000 

.000 

.OOO 

+  5 

+  .OOI 

-.003 

—  .OOI 

-.004 

+  .001 

+  .004 

o 

+  .004 

+  .007 

—.009 

-.006 

+  .002 

+  .008 

-  5 

+  .005 

+  .024 

—  .010 

-.006 

+.004 

+  .OI2 

IO 

+  .004 

+  .041 

—  .010 

-.005 

+  .007 

+  .014 

15 

+  .004 

+  .059 

—  .010 

.000 

+.009 

+  .OIS 

20 

+  .004 

+  .078 

-.018 

+.008 

+  .010 

+  .004 

25 

+  .100 

—.028 

+.019 

+  .OIO 

.OOO 

-3° 

+  .124 

—.029 

+.028 

+.007 

.OOO 

35 

—.027 

+•034 

40 

+.038 

45 

+.039 

5° 

+.039 

x 

55 

+.038 

-60 

+•037 

65 

+•037 

7° 

+•035 

75 

+.036 

80 

+  .040 

-80 

+  .007  Sec.  S 

85 

+  .006 

-90 

+  .005 

CORRECTION  ON  ACCOUNT  OF  MAGNITUDE  EQUATION.    AaM 

Magn. 

I 

1 

+.019 

« 
+  .OIO 

s 

+.018 

s 

+  .024 

s 

+.013 

s 

+.005 

4 

—  .004 

—  .002 

—  .004 

-.005 

-.003 

—  .OOI 

5 

—  .on 

-.006 

—  .Oil 

-.015 

—.008 

-.003 

6 

—  .019 

—  .010 

—.018 

-.024 

—.013 

-.005 

7 

—  .026 

-.014 

—  .026 

-•034 

-.018 

-.007 

8 

-•034 

—.018 

-•033 

-.044 

-.023 

-.009 

3oo 


PRELIMINARY  GENERAL   CATALOGUE   OF   STARS   FOR    IQOO 


SYSTEMATIC   CORRECTIONS  IN  RIGHT-ASCENSION.     Aas 


d 

Madn  90 

Lisb  90 

Melb  90 

Pulk  92 

Lick  95 

Berl  95 

o 

s 

s 

s 

s 

s 

s 

+90 

.000  Sec.  S 

+  .006  Sec.  S 

+  .OH  Sec.  « 

+  .000  Sec.  S 

85 

.000 

+  .004 

+  .013 

+  .004 

80 

+  .003 

+  .002 

+  .015 

+  .OII 

+80 

+  .019 

+  .010 

+  .086 

+  .064 

75 

+  .022 

—  .002 

+  .064 

+  .041 

70 

+  .029 

-.009 

+  .034 

+  .020 

6S 

+  .031 

.000 

—  .012 

+  .005 

60 

+  .026 

-.004 

—  .014 

—  .004 

+  SS 

+  .019 

-.006 

—  .014 

—  .010 

5° 

+  .011 

-.009 

-.015 

—  .016 

45 

+  .007 

—  .009 

+.006 

—  .016 

-.017 

40 

+  .006 

—.008 

+  .008 

—  .016 

—  .008 

—  .015 

35 

+  .008 

-.007 

+  .OIO 

-.015 

.000 

-.013 

3° 

+  .009 

-.005 

+  .009 

-.013 

+  .005 

—  .Oil 

+  25 

+  .008 

—  .002 

+  .008 

-.008 

+  .007 

—  .009 

2O 

+  .006 

.OOO 

+  .006 

—  .004 

+  .008 

-.007 

IS 

+  .OO3 

+  .O02 

+  .003 

-.003 

+  .007 

—  .004 

10 

.000 

+  .004 

.000 

.000 

+  .004 

+  .002 

+  5 

—  .OO2 

+  .005 

-.003 

+  .004 

—  .001 

+  .006 

o 

—  .004 

+  .004 

-.005 

+  .005 

—  .005 

+  .008 

-  S 

-.OO? 

+  .001 

-.006 

+.003 

—  .008 

+  .009 

IO 

-.009 

—  .003 

-.007 

—  .001 

—  .010 

+  .OII 

IS 

—  .on 

—  .006 

—  .006 

-.006 

—  .012 

+•013 

20 

-.007 

-.003 

—  .014 

+.016 

25 

-.007 

+  .003 

—  .012 

+.017 

-3° 

-.007 

+.006 

—  .009 

35 

-.007 

+  .OOZ 

—  .004 

40 

-.005 

+.006 

45 

—  .014 

5° 

—  .025 

55 

-.038 

-60 

—  .056 

65 

-•073 

70 

—  .100 

II 

-•135 
-.196 

-80 

—  .034  Sec.  S 

85 

-.028 

-90 

—  .021 

CORRECTION  ON  ACCOUNT  OF  MAGNITUDE  EQUATION.    Aa 

Magn. 

I 

8 
+  .029 

s 

+  .019 

s 

+•013 

s 

+  .OI2 

s 
+  .O2I 

8 
+  .OIJ 

4 

-.006 

—  .004 

-.003 

—  .OO2 

-.004 

-.003 

5 

-.017 

—  .012 

—.008 

-.008 

-.013 

-.009 

6 

—  .029 

—  .OI9 

-.013 

—  .OI2 

—  .021 

-.015 

7 

—  .O4O 

-.027 

—  .018 

-.018 

—  .030 

—  .O2I 

8 

-.052 

-•°35 

-.023 

—  .022 

-.038 

-.027 

APPENDIX 


301 


SYSTEMATIC  CORRECTIONS  IN  RIGHT-ASCENSION.    Aa$ 


s 

Alb  oo 

Lick  oo 

Mtin  oo 

Cp  Z  oo 

Cape  oo 

Cine  oo 

I 

s 

s 

s 

> 

8 

+90 

.000 

+  .006  Sec.  S 

8S 

.000 

+  .008 

80 

.000 

+  .010 

+  80 

.000 

+  .058 

.000 

+  .161 

75 

+.038 

+  .079 

70 

+.049 

+  .026 

65 

+.049 

-.005 

60 

+  .040 

—  .016 

+  55 

.000 

+  .024 

—  .016 

5° 

+  .OI2 

—  .014 

45 

+  .004 

-.014 

40 

.OOO 

—  .018 

35 

—  .OO2 

—  .021 

3° 

-.003 

- 

—  .020 

+  25 

.000 

—  .003 

-.015 

20 

—  .003 

-.004 

IS 

.OOO 

+  .OOI 

10 

+  .003 

+  .OO2 

+  5 

+  .004 

+  .001 

o 

.000 

+.003 

+  .002 

.OOO 

-  5 

.000 

+.003 

—  .OOI 

10 

+  .OOI 

-.005 

Rem. 

15 

—  .002 

—  .on 

(25) 

20 

-.006 

-.018 

25 

-.013 

-3° 

.000 

—  .019 

.000 

35 

—  .024 

.000 

40 

—  .029 

.000 

45 

-.033 

.000 

So 

.000 

55 

.000 

-60 

.000 

.000 

65 

.000 

70 

.000 

7S 

.000 

80 

.000 

-80 

85 

-90 

CORRECTION  ON  ACCOUNT  OF  MAGNITUDE  EQUATION.    AaM 

Magn. 

s 

8 

s 

» 

8 

I 

.000 

+  .015 

.000 

.000 

+  .018 

4 

-.003 

.000 

.000 

—  .004 

5 

—  .OO9 

.000 

.000 

—  .Oil 

6 

-.015 

.000 

.000 

-.018 

I 

.000 

—  .021 
-.027 

.000 

.000 

.000 
.000 

—  .026 
-•°33 

303 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    1900 


SYSTEMATIC  CORRECTIONS  IN  RIGHT-ASCENSION.    Aas 


s 

Bonn  oo 

Cape  06 

e 

+  9° 

' 

' 

85 

So 

+80 

75 

70 

65 

60 

+55 

-.004 

5° 

-.006 

45 

-.008 

40 

—  .012 

35 

—  .Ol8 

3° 

—  .021 

+'5 

—  .Ol8 

ao 

-.014 

15 

—  .008 

10 

—  .002 

+  5 

+  .006 

o 

+  .OI4 

-  5 

10 

30 

25 

+  .O2I 

_30 

+  .024 

35 

40 

.000 

45 

.OOO 

5° 

.OOO 

55 

.OOO 

-60 

.OOO 

65 

.OOO 

70 

.OOO 

75 

.OOO 

So 

.OOO 

-80 

85 

-90 

CORRECTION  ON  ACCOUNT  OF  MAGNITUDE  EQUATION.    Aa" 

Magn. 

s 

a 

I 

.000 

+  .015 

4 

.000 

-.003 

I 

.000 

.000 

+  .003 
+  .008 

I 

.000 
.000 

+  .OIO 
+  .OH 

APPENDIX  HI  303 

SYSTEMATIC  CORRECTIONS  IN  RIGHT-ASCENSION  APPLICABLE  TO  A.  G.  ZONES. 


Kasan 

Christiania 

Hels.-Gotha 

Harvard 

Bonn 

Lund 

i             Ao, 

«            Aoj 

S            An, 

S            Aaj 

S          Aa, 

8          A»j 

0            s 

«           s 

•             s 

0            s 

0            s 

•          • 

+  75         .000 

+  65      -.032 

+  55      +.009 

+  50      -.038 

+  40       —.005 

+  35         -°°° 

76         .000 

66      —  .026 

57      +-005 

51       —.028 

42       -.005 

36         .000 

77         .000 

67      -.017 

59     -.002 

52        -.012 

44      —.010 

37         -ooo 

78         .000 

68         .000 

61      —.007 

53      +.007 

46      +  .003 

38         .000 

79         .000 

69      +.023 

63      -.003 

54      +.020 

48      +.003 

39         .000 

+80         .000 

+  70      +.052 

+  65         -  .002 

+  55      +-027 

+50      +.009 

+40         .000 

a           Aaa 

o           Aa^ 

a           Aaa 

Aa. 

a           Aaa 

a           Aaa 

h            s 

h           s 

h           > 

h            s 

h          s 

h          s 

0       +.057 

0       —  .030 

o      +.032 

O         +.002 

0      —.023 

0      +.008 

I       +-OS3 

I           .030 

*      +-033 

I         +.002 

I          .023 

I       +.007 

2        +.047 

2           .030 

2        +  .032 

2         +.002 

2           .023 

2      +.007 

3      +-039 

3          .030 

3      +-030 

3      +-003 

3         -023 

3      +.008 

4     +.031 

4          -030 

4      +.027 

4     +.005 

4         -023 

4      +-OII 

5        +.023 

S        -030 

S     +.024 

5     +.009 

5         -023 

5      +.016 

6     +.014 

6      —.030 

6     +.019 

6     +.013 

6     -.023 

6        +.O2I 

7     +.006 
8      +.001 

7        -030 
8         .030 

7     +.015 
8      +.010 

7      +.018 
8     +.020 

7        .023 
8        .023 

7        +.022 

8     +.023 

9     -.003 

9         .030 

9      +.006 

9      +  .020 

9        .023 

9      +.021 

10     —.005 

10        .030 

IO        +.OO2 

io     +  .019 

io        .023 

IO       +  .016 

ii      -.006 

ii         .030 

II         —.001 

ii     +.015 

ii        .023 

II         +.011 

12        -.003 

12        -.030 

12        —.002 

12        +  .009 

12        -.023 

12       +.008 

13      +.001 

13            -030 

13         -.003 

13      -  .001 

13            .023 

13    +-009 

14        +-007 

14            .030 

14        —  .002 

14      —.on 

14            -023 

14    +.015 

15        +-OIS 

IS            .030 

IS             .000 

15     -.018 

15        .023 

15     +.023 

16     +.023 

io        .030 

16      +  .003 

IO        —.022 

16        .023 

16     +.031 

17     +.032 

17            .030 

17     +.006 

17        —.022 

17        -o»3 

17     +-033 

18     +  .040 

18     —.030 

18     +.on 

18     -.018 

18     -.023 

18     +.033 

19     +  .048 

19        .030 

19     +.015 

19        -.013 

19        -023 

19      +  .030 

20     +  -053 

20            .030 

20      +.020 

2O        -.008 

20        .023 

20        +  .026 

21        +.057 

21             .030 

21        +.024 

21        -.003 

21        .023 

21        +  .020 

22       +.059 

22            .030 

22        +.028 

22       —  .001 

22           .023 

22        +.014 

23       +.060 

23            .030 

23        +-°3' 

23      +.001 

23           .023 

23      +.010 

24       +-057 

24            .030 

24        +.038 

24        +.002 

24           .023 

24        +.008 

M         AaM 

M         AaM 

M         AaM 

M          AaM 

M           AaM 

M         AaM 

s 

s 

s 

a 

s 

s 

4         .000 

4         .000 

4     -.003 

4     -.006 

4     -.004 

4     -.008 

5         .000 
6         .000 

f.ooo 
.000 

t—  .010 
—  .017 

S     —.018 
O     —.030 

S     —.on 
6     -.018 

5      --025 
o     —.042 

7         .000 
8         .000 
9         .000 

7         .000 
8         .000 
9         .000 

7     -.024 
8     —.031 
9     -.038 

7     --041 
7-S  -.048 
8     -.058 

7     —.026 
8     -.033 
9     -.041 

7     -.058 
8     -.075 
8.5  -.085 

8.5  -.076 

9     -.096 

- 

9      -.105 

PRELIMINARY  GENERAL  CATALOGUE  OF  STARS   FOR    1 900 


SYSTEMATIC  CORRECTIONS  IN  RIGHT-ASCENSION  APPLICABLE  TO  A.   G.  ZONES. 


Leiden 

Cambridge 

Berlin  B. 

Berlin  A. 

Leipsic  I 

Leipsic  II 

•           Aa, 

S           Aa, 

S           Aa, 

J              Aa, 

S           Aa, 

S           Aa, 

0           s 

0             s 

0            s 

0           s 

0            s 

0            s 

+  30      +.001 

+  25          .000 

+  2O           .000 

+  15          .000 

+  10      +.007 

+  5          .000 

31     --003 

+  26         .000 

21              .000 

1  6          .000 

ii      +.005 

6         .000 

32     -.004 

+  27         .000 

22              .OOO 

17          .000 

12         +.003 

7         .000 

33      -•«« 

+  28         .000 

23         .000 

18          .000 

13      +.001 

8         .000 

34      +.003 

+  29          .000 

24          .000 

19          .000 

14     -.005 

9         .000 

+3S      +.009 

+  30         .000 

+  25         .000 

20          .000 

+  15      —.on 

IO             .OOO 

a           <\aa 

a           Aaa 

a           Aaa 

a           Aaa 

a           Aaa 

a           Aaa 

h            s 

h           s 

h           > 

h          • 

h          s 

b           s 

0       -.023 

o     —.019 

o      +.003 

O       +.007 

0      +  .023 

o     —.015 

I       —.023 

I      —.019 

I     +.003 

I        +.007 

I          .023 

I        —.015 

2        —.022 

2        —.019 

2         +.002 

2       +.007 

2            .023 

2        —.013 

3        —.021 

3      -.018 

3         +.001 

3      +.006 

3         -023 

3         —.012 

4      -.017 

4      -.017 

4      +.001 

4      +-°°S 

4         .023 

4      -.009 

S     -.014 

5      -.017 

5         .000 

5      +.005 

5         -023 

5      --005 

6     —  .01  1 

6     —.017 

6      —.001 

6     +.004 

6     +.023 

6     —.002 

7        —.010 

8     —.013 

7     -.018 

8        —  .020 

7         —.002 
8        -.002 

7      +.003 

8         +.001 

7        -023 
8         .023 

7         +  .002 

8      +.007 

9     —.018 

9      —.022 

9      -.003 

9      +.001 

9         -023 

9      +.010 

10     —.025 

10     —  .023 

10     —.003 

IO           .OOO 

10         .023 

10      +.013 

ii      —.028 

ii      —.022 

ii      -.003 

II         -.001 

ii         .023 

ii      +.015 

12       —  .028 

12         -.021 

12        -.003 

12         —.001 

12        +  .023 

12        +.017 

13    -.027 

13         —.Ol6 

13        --003 

13      —.001 

13             -023 

13    +-017 

14      —  .024 

14      —.on 

14        —.002 

14      —.001 

14            .023 

14     +.016 

IS        —.021 

16      —.017 

IS         —.002 

16     +  .004 

IS         —.OOI 

16     —.001 

15          .000 
16         .000 

IS            .023 
IO           .023 

15     +.014 
16      +.QII 

17      —.016 

17    +.005 

17         .000 

17      +.001 

17           -023 

17      +.007 

18      —.015 

18     +.005 

18      +.001 

l8        +.002 

18     +.023 

18      +  .004 

19     -.017 

19      +  .002 

19         +  .002 

19        +  .003 

19        -023 

19         .000 

20      —.019 

20      —.002 

2O         +.OO2 

2O         +.OO4 

20            .023 

20      —.005 

21        —  .O2O 

21        —.007 

21        +  .003 

21        +.005 

21             .023 

21        —.007 

22        —.O2I 

22        —.OI2 

22        +.003 

22        +.006 

22            .023 

22        -.Oil 

23        -  .022 

23        —  .016 

23        +.003 

23        +  .007 

23             .023 

23        -.013 

24        -.023 

24        -.019 

24        +.003 

24        +.007 

24            .023 

24        -.015 

M          Aa__ 

M          AaM 

M          AaM 

M          AaM 

M         AaM 

M         A«M 

s 

s 

s 

s 

s 

s 

4         .000 

4      —.002 

4      —.002 

4         .000 

4      —  .008 

4      —  .006 

5         .000 

S      -.006 

5      —.006 

5         .000 

5     -.023 

5      -.017 

6         .000 

6      —.010 

6      —.010 

6         .000 

6      -.038 

6      —.028 

7         .000 
8         .000 

7      -.016 
7-5  -.025 

7      -.014 
8      -.018 

6.5      .000 
7     —  .006 

7     --053 
8     -.068 

7      —  .040 
8      -.051 

9         .000 

8      -.038 

9        —.022 

7-5  -.015 

9     --083 

9      —.062 

8.5  -.059 

8     -.028 

9      —.091 

8.5  -.047 

9      -.067 

APPENDIX   in 


305 


SYSTEMATIC   CORRECTIONS  IN  RIGHT-ASCENSION  APPLICABLE  TO  A.  G.  ZONES. 


Albany 

Nikolaief 

Strassburg 

Wien-Ott. 

5           An5 

«         Aoj 

*           Aa{ 

S         Aoj 

0          s 

»         s 

o          s 

•              9 

+     I             .000 

—    2           ,OOO 

—   6         .000 

—  IO            .OOO 

2            .000 

—    I           .OOO 

S         .000 

9        .000 

3        .000 

O           .OOO 

4         .000 

8        .000 

4        .000 

+    I           .OOO 

3         .000 

7        .000 

+  5         .000 

—     2            .OOO 

—  6        .000 

a          Aaa 

a           Aa  ( 

o          Aoa 

a         Aaa 

h         t 

h         s 

h        s 

h         » 

O       +.O22 

O            .000 

0     +.034 

0     +.023 

I        +.019 

I      +.003 

*      +-034 

I        +.022 

2       +.017 

2       +.005 

2       +.034 

2       +.021 

3     +.014 

3     +.008 

3     +.°34 

3     +.019 

4     +.oii 

4     +.010 

4     +-034 

4     +.018 

5     +.009 

S       +.012 

5     +-034 

5     +-017 

6    +.007 

6    +.014 

6    +.034 

6     +.016 

7    +-005 
8     +.004 

7    +.015 
8    +.015 

7    +.034 
8    +.034 

7     +.016 
8     +.016 

9     +.005 

9    +.015 

9     +-034 

9     +.016 

10     +  .005 

10     +.014 

10     +.034 

10     +.017 

ii     +.006 

II       +.012 

ii     +.034 

ii     +.018 

12       +  .008 

12       +.010 

12       +.034 

12     +.019 

13     +.010 

13       +-007 

»3       +-034 

13     +.020 

14   +.013 

14       +.005 

H      +-034 

14     +.021 

15    +.016 

IS       +.002 

IS     +-034 

IS     +.023 

16     +.019 

16        .000 

16     +  .034 

16     +.024 

17       +.021 

17      -.002 

17     +.034 

17     +  .025 

18     +.023 

18     —  .004 

18     +.034 

18     +.026 

19     +.025 

19     -.005 

19     +-034 

19     +.026 

20       +.026 

20     —.005 

20       +  .034 

20     +.026 

21       +.026 

21       —  .005 

21      +.034 

21       +.026 

22       +  .025 

22       —  .004 

22       +.034 

22      +.025 

23       +  .024 

23       —  .002 

23       +.034 

23      +  .024 

24       +.022 

24        .000 

24      +-034 

24      +-023 

M        A«M 

M         A«M 

M        AaM 

M        AaM 

s 

s 

s 

8 

4     -.007 

4        .000 

4     --005 

4     —.001 

t—  .020 
-•°33 

5        .000 
6        .000 

5     --015 
6     -.025 

t—  .002 
—  .OO3 

7    —  .046 
8     -.059 
9     -.073 

7        .000 
8        .000 
9        .000 

7     -.035 
7.5  -.042 
8    -.055 

7    --005 
8    -.006 
9     -.007 

8.5  -.071 

9     -.089 

306 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR 


SYSTEMATIC  CORRECTIONS  IN  DECLINATION.    A8a 


Br  1755  R.  (5) 
Qu.  S.     Qu.  N. 

Pi  oo 

Groomb  10 

Grw  15 

Kbn  20 

Schw  28 

h 

// 

„ 

„ 

„ 

„ 

» 

O 

+  .01         -.30 

+  .09 

.00 

-.09 

+  .05 

-.09 

I 

-.03         -.07 

+  •15 

—  .01 

-.07 

—  .02 

+  .01 

2 

-.07         +.08 

+  .22 

—  .01 

-.04 

-.09 

+  .11 

3 

—  .18            +.10 

+  .28 

—  .02 

—  .02 

-.16 

+  .20 

4 

-.15         +.18 

+  •37 

—  -°3 

+  .02 

—  .21 

+  .27 

5 

-.11       +.36 

+  .50 

-•°3 

+  .04 

-.25 

+  •33 

6 

-.02            +.51 

+  •59 

-•°3 

+  .07 

-.27 

+  •37 

7 

+  .10        +.61 

+  .58 

+  .09 

-.27 

+  •37 

8 

+  .25         +.66 

+  .48 

—  .02 

+  .11 

-.26 

+  .36 

9 

+  .41         +.62 

+  •25 

—  .02 

+  .11 

—•23 

+  .32 

10 

+  •52         +-45 

+  .04 

—  .OI 

+  .11 

—  .18 

+  .26 

ii 

+  .31         +-24 

-.04 

—  .01 

+  .10 

—  .12 

+  .18 

12 

.00         +.15 

-.07 

.OO 

+.09 

-•OS 

+  .09 

13 

—  .29             +.12 

.00 

+  .01 

+.07 

+  .02 

—  .01 

14 

—  .42             +.12 

'  +.07 

+  .01 

+  .04 

+  .09 

—.11 

11 

-•34            +.12 
—  .22            +.11 

—  .01 

—  .22 

+  .02 
+  •03 

+  .02 
—  .02 

+  .16 

+  .21 

—  .20 
-.27 

17 

—  .11            +.02 

-•53 

+  .03 

-.04 

+  -»5 

-•33 

18 

+  .04            —.12 

-.70 

+  .03 

-.07 

+  .27 

-•37 

19 

+  .26            —.20 

-•75 

+  .03 

-.09 

+  .27 

-•37 

20 

+  .34            -.40 

-•75 

+  .02 

—  .11 

+  .26 

-•36 

21 

+  .30            -.47 

-.62 

+  .02 

—  .11 

+  .23 

-•32 

22 

+  .17            -.49 

-•39 

+  .01 

—  .11 

+  .18 

-.26 

33 

+  .08            -.4S 

—  .12 

+  .01 

—  .JO 

+  .12 

-.18 

34 

+  .01         -.30 

+  .09 

.OO 

-.09 

+  -°5 

-.09 

o 

Brisb  25 

Cape  30 

Camb  30 

St  H30 

Abo  30 

Grw  30 

h 

// 

„ 

„ 

ft 

„ 

„ 

0 

-.08 

+  .06 

-.19 

+  •52 

—  .13 

+  .08 

I 

+  .07 

+  .12 

-.19 

+  .50 

—  •05 

+-I3 

2 

+  .22 

+  .17 

-.17 

+  •44 

+  .02 

+  .17 

3 

+  •34 

+  .21 

-.14 

+  •35 

+  .09 

+  .20 

4 

+  •45 

+  •24 

—.11 

+  .24 

+  .16 

+  .22 

5 

+  •53 

+  •25 

-.06 

+  .12 

+  .21 

+  .22 

6 

+  •57 

+  •24 

—.01 

—  .02 

+-«5 

+  .21 

7 

+  •57 

+  .22 

+  .04 

—  .IJ 

+  .27 

+  .18 

8 

+  •53 

+  .18 

+.09 

—  28 

+.28 

+  .14 

9 

+  .46 

+  •13 

+  •13 

-.38 

+.26 

+  .09 

10 

+  •35 

+  .07 

+  .16 

-.46 

+.23 

+  .04 

ii 

+  .22 

.00 

+  .18 

-•55 

+  .18 

—  .02 

12 

+  .08 

-.06 

+  .19 

-.52 

+  .12 

-.08 

13 

-.07 

—  .12 

+  .19 

-.50 

+.05 

-•'3 

14 

—  .22 

-.17 

+  .17 

-•44 

—  .02 

-.17 

3 

-•34 
-•45 

—  .21 
-.24 

+  •14 
+  .11 

-•35 
-•24 

-.09 
-.16 

—  .20 
—  .22 

»7 

-•53 

-•25 

+  .06 

—  .12 

—  .21 

—  .22 

18 

-•57 

-.24 

+  .01 

+  .02 

-•25 

—  .21 

19 

-•57 

—  .22 

-.04 

+  •15 

-.27 

-.18 

20 

-•53 

-.18 

-.09 

+  .28 

-.28 

-.14 

21 

-.46 

-•13 

+  .38 

-.26 

-.09 

22 

-•35 

-.07 

—.16 

+  .46 

-•23 

-.04 

33 

—  .22 

.OO 

-.18 

+  •55 

-.18 

+  .02 

24 

-.08 

+  .06 

-.19 

+  •52 

—  .12 

+  .08 

APPENDIX   in 


3°7 


SYSTEMATIC  CORRECTIONS  IN  DECLINATION.    A6a 


Dpt  30 

Cape  33 

Madras 

Edinb  40 

Arm  40 

h 

„ 

» 

„ 

„ 

» 

o 

-.02(6) 

-.16 

-.19 

-.09  (7) 

-.06 

I 

+  .02 

-.17 

-.19 

—  .12 

+  .01 

2 

+  .06 

-.17 

-.19 

-.14 

+  .08 

3 

+  .09 

-.16 

-.17 

-•is 

+  •14 

4 

+  .12 

-•13 

-•13 

-•15 

+  .20 

5 

+  .14 

—  .10 

-.09 

-.14 

+  •24 

6 

+  -IS 

-.06 

-•OS 

—  .13 

+  .26 

I 

+  -!S 

+  .14 

—  .02 

+  .°3 

.00 

-.09 
-.06 

+  .27 
+  .26 

9 

+  .12 

+  .07 

+  .10 

—  .02 

+  •23 

10 

+  .09 

+  .11 

+  .14 

+  .02 

+  .19 

ii 

+  .06 

+  •14 

+  .1? 

+.06 

+  •13 

12 

+  .02 

+  .16 

+  .19 

+.09 

+  .06 

13 

—  .02 

+  .17 

+  .19 

+  .12 

—  .OI 

14 

-.06 

+  •17 

+  .19 

+  •14 

-.08 

15 

-.09 

+  .16 

+  .17 

+  .13 

-.14 

16 

—  .12 

+  -I3 

+  •13 

+  -IS 

—  .20 

J7 

-.14 

+  .10 

+  .09 

+.14 

-.24 

18 

-•!5 

+  .06 

+  .05 

+  .13 

-.36 

19 

—  .IJ 

+  .02 

.00 

+.09 

-.27 

20 

-.14 

-.03 

—  -°s 

+.06 

-.26 

21 

—  .12 

-.07 

—  .10 

+  .03 

-•23 

22 

-.09 

—  .11 

-.14 

—  .02 

-.19 

23 

-.06 

-•14 

-.17 

-.06 

-•13 

24 

—  .02 

-.16 

-.19 

-.09 

-.06 

Cape  40 

Gr  w  40 

Grw  45 

Radcl  45 

Pulk45 

Paris  45 

h 

tt 

tt 

// 

„ 

tt 

» 

O 

+  .02 

-.18 

-.07 

+  .05  (8) 

+  .07 

—  .12 

I 

+  .02 

-.18 

-.07 

+  .02 

+  .06 

—  .12 

2 

+  .02 

—  .17 

-.07 

—  .02 

+  .°S 

—  .11 

3 

+  .02 

—.15 

-.06 

-.06 

+  .03 

-.09 

4 

+  .01 

—  .12 

—  -05 

-.09 

+  .01 

-.07 

5 

+  .01 

-.08 

-•°3 

—  .11 

—.01 

-.04 

6 

.OO 

-.03 

—  .02 

-•13 

-•03 

—.01 

I 

.OO 
—  .OI 

+  .O2 
+  .06 

.00 

+  .02 

-.14 
-.14 

-°5 
—  .06 

+  .02 
+  .05 

9 

—  .OI 

+  .10 

+  .04 

-•13 

-.07 

+  .08 

10 

—  .02 

+  .14 

—  .11 

-.08 

+  .10 

ii 

—  .02 

+  .1? 

+  .07 

-.08 

-.08 

+  .12 

12 

—  .02 

+  .18 

+  .07 

-•OS 

-.07 

+  .12 

13 

—  .02 

+  .18 

+  .07 

—  .02 

-.06 

+  .12 

14 

—  .02 

+  .17 

+  .07 

+  .02 

-•OS 

+  .11 

it 

—  .02 
—  .01 

+  -IS 

+  .12 

+  .06 

+  .05 

+  .06 
+  .09 

—  .01 

+  .09 
+  .07 

17 

—  .OI 

+  .08 

+  .03 

+  .11 

+  .01 

+  .04 

18 

.OO 

+  -°3 

+  .O2 

+  •13 

+.03 

+  .01 

19 

.OO 

—  .02 

.OO 

+  .14 

+  •05 

—  .02 

20 

+  .01 

-.06 

—  .02 

+  •14 

+  .06 

-•05 

21 
22 

+  .01 
+  .02 

—  .IO 
-.14 

-.04 
-.05 

+  •13 
+  .11 

a 

-.08 
—  .IO 

23 

+  .02 

-.17 

-.07 

+  .08 

+.08 

—  .12 

24 

+  .02 

-.18 

-.07 

+  •05 

+.07 

—  .12 

308 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    IQOO 


SYSTEMATIC  CORRECTIONS  IN  DECLINATION.    A8fl 


Stgo  50 

Grwso 

Gi  Z  50 

Cape  50 

Pulkss 

Can-  55 

h 

/, 

It 

// 

» 

„ 

» 

O 

—  .21 

-.06 

+.08 

—.01 

+.04 

—  .05 

I 

-•is 

-.07 

—  .02 

—  .03 

+  .04 

—  .02 

2 

-.08 

-.08 

—  .12 

—  .05 

+  .03 

+  .01 

3 

—  .01 

-.08 

—  .20 

-.06 

+  .02 

+  .04 

4 

+.07 

-.07 

-.28 

-.07 

+  .01 

+  .07 

5 

+.14 

-.06 

-•33 

-.07 

.OO 

+  .09 

6 

+  .20 

-•°5 

-.36 

-.08 

—  .02 

+  .11 

I 

+  •25 
+  .28 

—  .01 

-•37 
--3S 

-.07 
-.06 

-.04 

+  .12 
+  .12 

9 

+  .29 

+  .01 

—  .31 

—  -°s 

-.04 

+  .12 

10 

+  .28 

+  •03 

-•25 

—  .03 

—  .05 

+  .10 

ii 

+  .26 

+  .05 

-•17 

—  .01 

-•OS 

+  .08 

12 

+  .21 

+  .06 

-.08 

+  .01 

-.04 

+  .05 

13 

+  -IS 

+  .07 

+  .02 

+  .03 

-.04 

+  .O2 

M 

+  .08 

+  .08 

+  .12 

+  .05 

—  -°3 

—  .OI 

15 

+  .01 

+  .08 

+  .2O 

+  .06 

—  .02 

-.04 

16 

-.07 

+  .07 

+  .28 

+  .07 

—  .01 

-.07 

17 

-.14 

+  .06 

+  •33 

+  .07 

.00 

-.09 

18 

—  .20 

+  .05 

+  .36 

+  .08 

+  .02 

—  .11 

19 

--2S 

+  •03 

+  •37 

+  .07 

+  •03 

—  .12 

30 

-.28 

+  .01 

+  -3S 

+  .06 

+  .04 

—  .12 

21 

-.29 

—  .01 

+  .05 

+  .04 

—  .12 

22 

-.28 

-•03 

+  •25 

+  .03 

+  .05 

—  .IO 

23 

-.26 

+  .17 

+  .01 

+  .05 

-.08 

24 

—  .21 

-!o6 

+  .08 

—  .01 

+  .04 

-°s 

Stgo  55 

Wash  60 

Cape  60 

Grw  60 

Stgo  60 

Radcl  60 

h 

„ 

„ 

it 

n 

„ 

„ 

0 

-.04 

-.19 

+  .05 

+  .01 

-.24 

+  .14  (8) 

I 

—  .10 

—  .21 

+  .07 

+  .02 

-.24 

+  .12 

2 

-•'5 

—  .22 

+  .09 

+  .03 

—  .22 

+  .10 

3 

-.19 

—  .21 

+  .10 

+  .04 

-.19 

+  .07 

4 

—  .22 

-.19 

+  .11 

+  .05 

-•is 

+  .03 

5 

-.24 

-i*J 

+  .ii 

+  .05 

—  .10 

.OO 

6 

-.24 

—  .11 

+  .10 

+  .OS 

-.04 

-.04 

I 

—  .22 
-.18 

-.06 
.OO 

+  .08 
+  .06 

+  .04 
+  .04 

+  •03 
+  .09 

-.08 
—  .11 

9 

-.14 

+  .06 

+  .04 

+  .03 

+  •14 

-•13 

IO 

-.09 

+  .11 

+  .01 

+  .02 

+  .18 

-.14 

ii 

-•°3 

+  •15 

—  .02 

.00 

+  .22 

-.14 

12 

+  .04 

+  .19 

"•OS 

—  .OI 

+  .24 

-.14 

13 

+  .10 

+  .21 

-.07 

—  .02 

+  .24 

—  .12 

14 

+  -IS 

+  .22 

-.09 

—  •O3 

+  .22 

—  .IO 

15 

+  .19 

+  .21 

—  .10 

-.04 

+  .19 

-.07 

16 

+  .22 

+  .19 

—  .11 

-•OS 

+  -IS 

-•03 

17 

+  •24 

+  •15 

—.11 

-.05 

+  .10 

.OO 

18 

+  .24 

+  .11 

—  .10 

-.05 

+  .04 

+  .04 

19 

+  .22 

+  .06 

-.08 

-.04 

-.03 

+  .08 

20 

+  .18 

.OO 

-.06 

-.04 

-.09 

+  .11 

21 

+  .14 

-.06 

-.04 

-•03 

-.14 

+  •13 

22 

+  .09 

—  .11 

—  .01 

—  .02 

-.18 

+  .14 

23 

+  .03 

-•'5 

+  .02 

.OO 

—  .22 

+  .14 

24 

-.04 

-.19 

+  -°S 

+  .01 

-.24 

+.14 

APPENDIX   III 


309 


SYSTEMATIC  CORRECTIONS  IN  DECLINATION.    A80 


Melb6o 

Paris  60 

Grw  64 

Cape  65 

Brass  65 

Pulk6s 

h 

/, 

it 

« 

• 

a 

„ 

0 

-.09 

-.09 

+  .04 

—  .02 

-.08 

+  .04 

I 

-.04 

—  •°5 

+  .03 

—  .03 

-.06 

+  .04 

2 

-.04 

—  .01 

+  .02 

-.04 

-.04 

+  .04 

3 

-.07 

+  .04 

+  .01 

-.04 

—  .02 

+  .03 

4 

-•13 

+.08 

.00 

-.04 

.OO 

+  .02 

5 

-.17 

+  .11 

—.01 

-.04 

+  .02 

+  .01 

6 

-.17 

+.14 

—  .02 

-.04 

+  .04 

.00 

7 

—  .11 

+  .16 

—  .03 

+  .06 

—  .01 

I 

.00 

+  .16 

-.04 

—  .02 

+  .08 

—  .02 

9 

+  .16 

+  .16 

-.04 

—  .01 

+  .08 

-.03 

10 

+  •33 

+  •15 

-.04 

.00 

+  .09 

-.04 

ii 

+  .47 

+  .12 

-.04 

+  .01 

+  .08 

-.04 

12 

+  •55 

+  .09 

-.04 

+  .02 

+  .08 

-.04 

13 

+  •55 

+  .05 

—  •03 

+  .03 

+  .06 

-.04 

»4 

+  .46 

+  .01 

—  .02 

+  .04 

+  .04 

-.04 

15 

+  .29 

—  .04 

—  .OI 

+  .04 

+  .02 

-.03 

16 

+  .09 

-.08 

.00 

+  .04 

.00 

—  .02 

17 

—  .12 

—  .11 

+  .01 

+  .04 

—  .02 

—  .01 

18 

-.29 

-.14 

+  .02 

+  .04 

-.04 

.00 

19 

-.40 

-.16 

+.03 

+  •03 

-.06 

+  .01 

20 

-.42 

-.16 

+  .04 

+  .02 

-.08 

+  .02 

21 

-.38 

-.16 

+  .04 

+  .01 

-.08 

+.03 

22 

-.29 

—  .IJ 

+.04 

.00 

-.09 

+  .04 

23 

-.18 

—  .12 

+.04 

—  .01 

-.08 

+  .04 

34 

-.09 

-.09 

+  .04 

—  .02 

-.08 

+  .04 

Grw72 

Helb  70 

Wash  75 

Cord  75 

Madr  75 

Pulk75 

h 

„ 

n 

>/ 

„ 

» 

ft 

o 

.00 

—  .11 

—.02 

-.01  (9) 

+  •13 

+•05 

I 

.00 

—  .10 

—  .02 

—  .03 

+  .19 

+.06 

2 

.00 

-.09 

—  .OI 

—  .05 

+  .24 

+  .06 

3 

—  .01 

-.07 

.00 

-.07 

+  .27 

+  .07 

4 

—  .01 

.00 

-.08 

+  .29 

+  .06 

5 

—  .01 

—  .02 

+  .01 

-.09 

+  .28 

+.06 

6 

—  .01 

+  .01 

+  .02 

-.09 

+  .26 

+  -°5 

I 

—  .01 
—.01 

+  .04 

+.06 

+  .02 
+  .02 

-.09 
-.08 

+  .21 

+  .16 

+  .01 

9 

—  .01 

+.08 

+  .03 

-.06 

+  .09 

.00 

10 

.00 

+  .10 

-.04 

+  .02 

—  .02 

ii 

.00 

+.11 

+  .02 

—  .02 

-.06 

-.04 

12 

.00 

+.11 

+  .O2 

+  .01 

-•'3 

_.os 

13 

.00 

+  .10 

+  .O2 

+  .03 

-.19 

-.06 

14 

.00 

+  .09 

+  .01 

-.24 

-.06 

11 

+  .01 
+  .01 

+  .07 
+  .05 

.OO 

.OO 

+  .07 
+  .08 

-.27 

-.07 
-.06 

»7 

+  .01 

+  .02 

—  .OI 

+  .09 

-.28 

-.06 

18 

+  .01 

—  .OI 

—  .02 

+  .09 

-.26 

-.05 

19 

+  .01 

-.04 

—  .02 

+  .09 

—  .21 

—  .03 

20 

+  .01 

-.06 

—  .02 

+  .08 

-.16 

—  .01 

21 

+  .01 

-.08 

—  .03 

+  .06 

-.09 

.00 

22 

.00 

—  .IO 

—  .03 

+  .04 

—  .02 

+  .02 

.00 

—  .11 

.03 

+  .02 

+  .06 

+  .04 

34 

.00 

—  .11 

—  .02 

—  .01 

+  •'3 

+  -°5 

3io 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    IQOO 


SYSTEMATIC  CORRECTIONS  IN  DECLINATION.    A8a 


Becker  75 

Harv  75 

Paris  75 

AGZ75 

Cape  So  (Rem.  10) 
i                 n                 m                rv 

h 

// 

n 

If 

n                       it                          n                         n 

O 

—  .05 

.00 

-.14 

+  .01           +-IS              +-11             —.02 

I 

-.04 

-.07 

+  .02            +.16               +.10              —.01 

2 

—  .02 

+  .01 

+  .03            +.15               +.09                 .00 

3 

.00 

+  .08 

+  .03            +.14               +.08                 .00 

4 

+  .02 

+  .16 

+  .04                  +.12                       +.06                     +.01 

5 

+  .04 

.00 

+  .21 

+  .04            +.08               +.03              +.01 

6 

+.06 

.00 

+  .26 

+  .04                +.05                         .OO                   +.02 

7 

+.07 

+  .28 

+  .04                  +.01                       —.02                     +.02 

8 

+.08 

+  .29 

,<** 

+  .03                  -.03                       -.OS                     +.02 

9 

+.08 

+  .28 

< 

+  .02                  —  .07                       —.07                     +.O2 

10 

+.08 

+  •25 

*0 

+  .OI                 —.11                     —.09                   +.02 

ii 

+.07 

.00 

+  .20 

1 

.00                  —.13                       —.10                     +.02 

12 

+.05 

.00 

+  .14 

13 

—  .01             —  .15                —.11               +.02 

»3 

+  .04 

+  .07 

—  .02             —.16                —.10               +.01 

14 

+  .02 

—  .01 

—  .03            —.15                —.09                  .00 

IS 

.00 

-.08 

fl 

—  .03             —.14                —.08                  .00 

16 
17 

—  .02 

-.04 

.00 

-.16 
—  .21 

4 

—  .04                  —.12                       —.06                     —.OI 
—  .04                  —.08                       —.03                     —.OI 

18 

-.06 

.00 

-.26 

—  .04           ~-°5                 -°°             —.02 

19 

-.07 

-.28 

—  .04                  —.01                       +.02                     —.02 

20 

-.08 

-.29 

—  .03                 +.03                     +.05                    —.02 

21 

-.08 

-.28 

—  .02                 +.07                     +.07                   —.02 

22 

-.08 

-.25 

—  .OI                 +.11                     +.09                   —.02 

23 

-.07 

—  .20 

.00            +-T3               +.10              —.02 

24 

—.05 

.00 

-.14 

+  .01            +-15               +-11              —.02 

-3S°to-35°  -35°to-45°  -45°topole 

GrwSo 

MelbSo 

Strassb  85 

Cape  85 

PulkSs 

Radcl  90 

h 

// 

It 

„ 

„ 

» 

// 

0 

+  .06 

-.Of 

+.03 

+  .12 

+  .02 

+.06 

I 

+  .04 

-.09 

+.03 

+  .11 

+  .01 

+.09 

2 

+  .02 

—  .10 

+  .02 

+  .08 

+  .01 

+.11 

3 

+  .02 

—  .10 

+  .01 

+  .06 

.OO 

+  .12 

4 

+  .02 

—  .10 

+  .01 

+  .02 

—  .OI 

+  .12 

5 

+  .04 

-.09 

.OO 

—  .OI 

—  .OI 

+  .13 

6 

+  .06 

-.07 

—  .OI 

-.04 

—  .02 

+  .11 

7 

+  .07 

~-°5 

—  .02 

-.07 

—  .02 

+  .09 

8 

+  .07 

—  .03 

—  .02 

—  .IO 

—  .03 

+  .06 

9 

+  .04 

.00 

—  .03 

—  .11 

—  .03 

+  .03 

10 

.00 

+  .03 

—  .03 

—  .12 

—  .03 

.OO 

ii 

-.05 

+  .05 

-•°3 

-•13 

—  .02 

-•°3 

12 

—  .10 

+.07 

_.03 

—  .12 

—  .02 

-.06 

13 

-.14 

+  .09 

—  •O3 

—  .11 

—  .OI 

-.09 

14 

-.16 

+  .10 

—  .02 

-.08 

—  .OI 

—  .11 

15 

-.16 

+  .10 

—  .OI 

-.06 

.00 

—  .13 

16 

-•13 

+  .10 

—  .01 

—  .02 

+  .01 

—  .13 

17 

-.08 

+  .09 

.OO 

+  .01 

+  .01 

—.13 

18 

—  .02 

+  .07 

+  .01 

+  .04 

+  .02 

—  .11 

19 
20 

13 

+  .05 
+  .03 

+  .02 
+  .02 

+.07 

+  .10 

+  .02 

-.09 
-.06 

21 

+  .10 

.00 

+  -°3 

+.11 

+  .03 

—  .03 

22 

+  .10 

-•03 

+  .12 

+  •03 

.OO 

23 

+.08 

+  .03 

+  .13 

+  .02 

+  .O3 

24 

+  .06 

-.07 

+  •03 

+  .12 

+  .02 

+  .06 

APPENDIX   IH 


SYSTEMATIC  CORRECTIONS  IN  DECLINATION.    A6fl 


Cine  90 

Cape  90 

Grw  go 

Berl  90 

Madn  go 

Melbgo 

h 

• 

» 

tt 

// 

// 

// 

0 

-.18 

-.06 

.00 

+  .06 

—  .21 

+  .19 

I 

-.18 

-.06 

+  .01 

+  .05 

—  .12 

+  •'3 

2 

-•JS 

-.06 

+  .02 

+  .04 

-.04 

+  .26 

3 

—  .10 

-•°S 

+  .02 

+  •03 

+  .03 

+  .27 

4 

-.04 

-.04 

+  .02 

+  .01 

+  .08 

+  .26 

S 

—  .01 

-•°3 

+  .03 

.00 

+  .10 

+  -»4 

6 

+  .02 

—  .01 

+  .03 

—  .02 

+  .11 

+  .20 

7 

+  .04 

+  .01 

+  .02 

-.04 

+  .11 

+  .14 

8 

+  .04 

+  .02 

+  .02 

-•°5 

+  .11 

+  .08 

9 

+  .04 

+  .04 

+  .02 

-.06 

+  •13 

+  .01 

10 
ii 

+  .04 
+  .04 

+  -°5 
+  .06 

+  .01 
.OO 

-.06 
-.06 

+  -'S 
+  .18 

-.06 
-•13 

12 

+  .05 

+  .06 

.00 

-.06 

+  .21 

-.19 

13 

+  .08 

+  .06 

—  .01 

-•°5 

+  .22 

-.23 

M 

+  .11 

+  .06 

—  .02 

-.04 

+  .21 

-.26 

3 

+  -I7 

+  .20 

+  .oS 
+  .04 

—  .02 
—  .02 

-•°3 
—  .01 

+  .17 
+  .10 

-.27 
-.26 

17 

+  .19 

+  .03 

-•03 

.00 

.00 

-.24 

18 

+  -IS 

+  .01 

-•03 

+  .02 

—  .11 

—  .20 

19 

+  .09 

—  .01 

—  .02 

+  .04 

—  .21 

-.14 

20 

+  .01 

—  .02 

—  .02 

+  .0S 

-.29 

-.08 

21 

-.07 

-.04 

—  .02 

+  .06 

-•33 

—  .OI 

22 

-.14 

-•°5 

—  .OI 

+  .06 

-•3» 

+  .06 

23 

-.17 

-.06 

.OO 

+  .06 

-.28 

+  •13 

24 

-.18 

-.06 

.OO 

+  .06 

—  .21 

+  .19 

Miin  02 

Lick  95 

[Berl  95 

W-O«97 

Alb  oo 

Lick  oo 

h 

ft 

// 

// 

tf 

// 

ft 

O 

+  .01 

+.05 

+  .08 

+  .07 

-.06 

+.08 

I 

+  .01 

+  .06 

+  .07 

+  .13 

-.07 

+.09 

2 

.00 

+  .07 

+  .05 

+  .18 

-.07 

+  .10 

3 

.00 

+  .07 

+  .03 

+  .21 

-.07 

+  .10 

4 

.00 

+  .07 

+  .01 

+  -*3 

-.06 

+.09 

5 

—  .01 

+  .06 

—  .01 

+  .24 

-.06 

+.08 

6 

—  .01 

+  •05 

-.04 

+  •'3 

-.04 

+.06 

7 

—  .01 

+  .04 

-.06 

+  .20 

—  .02 

+  .04 

8 

—  .01 

+  .02 

-.07 

+  .16 

.OO 

+  .02 

9 

—  .01 

.OO 

-.08 

+  .H 

+  .01 

—  .01 

10 

—  .01 

—  .02 

-.09 

+  -°5 

+  .03 

-•03 

ii 

—  .01 

-.04 

-.09 

—  .01 

+  -OS 

-.06 

12 

—  .01 

-•°S 

-.08 

-.07 

+.06 

-.08 

13 

—  .01 

-.06 

-.07 

-•13 

+.07 

-.09 

H 

.00 

-.07 

-•°S 

-.18 

+.07 

—  .10 

15 

.00 

-.07 

-•°3 

—  .21 

+.07 

—  .10 

16 

.00 

—  .07 

—  .01 

—  .23 

+.06 

-.09 

17 

+  .01 

-.06 

+  .01 

-.24 

+.06 

-.08 

18 

+  .01 

-•°5 

+  .04 

-•»3 

+  .04 

-.06 

19 

+  .01 

-.04 

+.06 

—  .20 

+  .02 

-.04 

20 

+  .01 

—  .02 

+.07 

-.16 

.00 

—  .02 

21 

+  .01 

.00 

+.08 

—  .11 

—  .01 

+  .01 

22 

+  .01 

+  .02 

+  .09 

-•OS 

-•03 

±•2 

23 

+  .01 

+  .04 

+.09 

+  .01 

-•05 

+.06 

»4 

+  .01 

+.05 

+.08 

+.07 

-.06 

+.08 

312 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS   FOR    1900 


SYSTEMATIC  CORRECTIONS  IN  DECLINATION.     A8. 


Cine  oo 

Bonn  oo 

Cape  oo 

Cape  06 

h 

// 

// 

tt 

// 

o 

.00 

+  .ii 

.00  (25) 

+  .03 

I 

.00 

+  .09 

+  .06 

2 

.00 

+  .07 

+  .09 

3 

.00 

+  .04 

+  .ii 

4 

.00 

+  .01 

+  .12 

5 

.00 

—  .02 

.00 

+  .12 

6 

.00 

-•°5 

.00 

+  .12 

I 

-•03 

—  .10 

-.08 

—.10 

+  .11 

+  .09 

9 

-.14 

—.11 

+  .06 

10 

-.17 

—  ,ia 

+  .03 

XI 

-.17 

—  .11 

.00 

.OO 

13 

-•15 

—  .11 

.00 

-•°3 

'3 

—  .10 

-.09 

-.06 

H 

—  .02 

-.07 

-.09 

3 

+.05 

+  .12 

-.04 

—  .01 

—  .11 
—  .12 

17 

+  .18 

+  .03 

.00 

—  .12 

18 

+  .20 

+  .05 

.00 

—  .13 

19 

+  .18 

+  .08 

—  .11 

30 

•MS 

+  .10 

-.09 

n 

+  .10 

+  .11 

-.06 

23 

+.06 

+  .12 

-•°3 

33 

+•03 

+  .11 

.OO 

»4 

.00 

+  .11 

.00 

+  .03 

APPENDIX   III 


313 


SYSTEMATIC  CORRECTIONS  IN  DECLINATION.    A88 


s 

Bri755 

Pi  oo 

Groomb  10 

Grw  15 

Kon  20 

Schw  28 

+90 

H 

+  0.44 

o.oo 

o.oo 

o.oo  (12) 

—  0.18 

85 
So 

+  0.43 
+  0.36 

+  O.I2 

+0.14 

—0.05 
—0.14 

o.oo 

0.00 

—  0.18 
-0.18 

75 

+  0.20 

-0.18 

—0.26 

o.oo 

—o  19 

70 

—  O.O2 

—  0.16 

-0.37 

+0.03 

—  0.22 

65 
60 

M 
H 

Jj 

-0.08 
—  O.O9 

—0.09 
—0.04 

-0.47 
—0.56 

+0.08 
+0.08 

+55 

So 

1 

M 

—  O.II 

-0.23 

—  0.0  1 

o.oo 

-0.63 
-0.68 

+0.04 
—0.03 

45 
40 

J 

-0.45 
—0.76 

+  0.04 
+  0.08 

-0.74 
-0.78 

—0.04 

O.OO 

35 

—  1.08 

—0.82 

0.00 

30 

-1.31 

—  0.81 

o.oo 

+  25 

-1.52 

-0.77 

o.oo 

20 

-1.89 

—0.72 

—  0.05 

IS 

-2.17 

—0.70 

—  O.I2 

IO 

—  2.27 

-0.71 

—  0.09 

+  5 

-2.28 

-0-73 

—  O.OI 

0 

—  2.32 

—0.78 

+0.05 

-  s 

10 

-2-39 
—  2.39 

—0.84 
—0.92 

+0.08 
+0.05 

15 

—  2.22 

—  I.OI 

+  0.01 

20 
25 

-1.68 

—  1.  10 
—  1.20 

-30 

-1.51 

-  — 

-1.30 

35 

-1.42 

40 

-i-39 

45 

—  1.40 

55 

-60 

6S 

70 

75 

80 

85 

-90 

PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   1900 


SYSTEMATIC  CORRECTIONS  IN  DECLINATION.    A68 


s 

Brisb  25 

Cape  30 

Camb  30 

St  HSO 

Abo  30 

Grw  30 

0 

+90 

// 

ft 

// 

+0.09 

// 

// 

0.00 

// 

+0.40 

85 

+0.04 

—0.04 

+0.28 

80 

—  0.0  1 

-0.08 

+0.15 

75 

—0.06 

—0.09 

+0.03 

70 

—0.14 

—0.06 

—  0.03 

65 

—0.30 

—0.05 

—0.07 

60 

—0.40 

—0.05 

—  0.12 

+55 

-0-45 

+  1.64 

—0.06 

—  0.21 

So 

-0-53 

+  1.26 

—0.09 

-o-37 

45 

-0.72 

+  1.06 

-0.13 

—0.62 

40 

-0.77 

+0.98 

—  0.18 

-0.86 

35 

-0.74 

+  0.99 

—0.24 

-1.03 

3° 

-0-55 

+  1.09 

-0.31 

—  i.  ii 

+  35 

—0.26 

+  i-3» 

-0.38 

-1.18 

20 

—  O.2O 

+  I-37 

-o-43 

-1.30 

iS 

—  O.22 

+  1.26 

-0.47 

-1.46 

10 

—  O.2O 

-0.25 

+  1.02 

—0.50 

-'•53 

+  S 

—  0.14 

-0.27 

+0.91 

-°-S3 

-i-SS 

o 

—  O.O6 

—  0.40 

+0.92 

-o-SS 

-'•S3 

-  5 

+  O.O3 

-0.68 

+  I.OI 

-0-59 

-1.56 

10 

+  O.IO 

-0-93 

+  I.OI 

—0.67 

-1.70 

15 

+0.18 

—  1.  12 

+0.72 

-0.77 

—  2.IS 

20 

+0.24 

-I.2S 

-0.03 

—0.91 

-2-58 

25 

+0.28 

-1.38 

-0.35 

-2-59 

-3° 

+0.17 

+0.30 

-1.50 

-0.18 

-*-3« 

35 

+0.08 

+0.26 

+o-33 

40 

+0.06 

+0.18 

+  0.52 

45 

+0.16 

+0.04 

+0.48 

50 

+  0.34 

-0.14 

+0.27 

55 

+0.56 

—0.30 

+0.13 

-60 

+  0.97 

-0.38 

+  0.10 

65 

+  I.2O 

—0.40 

+  0.22 

7° 

+  1.03 

-0.32 

+0-S5 

7S 

+0.58 

—  0.16 

+0-75 

80 

+0.33 

o.oo 

+0.73 

85 

+  0.13 

-90 

APPENDIX   III 


315 


SYSTEMATIC  CORRECTIONS  IS  DECLINATION.    A88 


s 

Dpt  30 

Cape  33 

(13) 

Madrss 

Edinb  401 

Edinb  402 

Arm  40 

0 

tt 

n 

• 

// 

tt 

„ 

+90 

o.oo 

+  O.IO 

—  0.16 

-0.13 

+0.23 

85 

—0.04 

+0.09 

-o-°5  (7) 

-0.04  (7) 

+0.24 

80 

—0.09 

+0.09 

+0.05 

+0.09 

+  0.20 

75 

—0.14 

+  O.IO 

+0.14 

+0.16 

+  0.09 

70 

—  0.20 

+0.15 

+  0.20 

+0.15 

—  0.07 

65 

—  0.26 

+0.28 

+  0.22 

+0.07 

-0.27 

60 

-o-33 

+0.49 

+  0.19 

—0.04 

—  O.23 

+S5 

—0.41 

+0-73 

+  0.14 

—0.09 

—O.26 

5° 

-0-43 

+0.77 

+  0.06 

—o.io 

—O.42 

45 

-0.38 

+0.68 

—  0.04 

—0.06 

-0-54 

40 

-0.32 

—O.o8 

+0.63 

—  O.IO 

—0.03 

—0.61 

35 

-0.27 

+  0.14 

+0.60 

-0.13 

—0.02 

—  0.62 

3<> 

—0.24 

+  0.29 

+0.44 

-0.13 

—0.03 

—0.58 

+  25 

—  0.22 

+  0.40 

+  0.16 

-0.13 

—  0.07 

-o-54 

20 

-0.25 

+  0.38 

—0.05 

—  O.II 

-0.13 

-o-57 

IS 

-0-34 

-0.32 

-0.19 

—0.05 

—O.I4 

—0.63 

10 

-0.51 

—  0.22 

—0.26 

—0.06 

—  O.II 

-0-75 

+  5 

-0.68 

—  0.12 

—0.26 

-0.17 

—0.06 

—0.89 

0 

-0-77 

—  O.II 

—0.22 

—0.41 

—0.07 

—0.92 

-  5 

-0.83 

—  0.21 

—O.II 

-0.66 

-  .17 

-0.86 

10 

-0.88 

—  O.I4 

—  O.O2 

—0.91 

-  .38 

-0.86 

15 

—0.92 

+  O.2O 

+  O.OS 

-i-iS 

-  .62 

—0.83 

20 

-0.97 

+  0-53 

+  0.09 

—  1.40 

-  .87 

-0.36 

25 

+  0.73 

+  0.17 

—  0.12 

-30 

+  0.79 

+°-33 

+  0.29 

35 

+  0.79 

+o-75 

40 

+  0-51 

+  I.OO 

45 

—  O.o6 

+  1.15 

5° 

-0.25 

+  1-23 

55 

-0.23 

+  1.24 

-60 

-0.25 

+  I.2O 

65 

—0.30 

+  I.I3 

70 

—  0.16 

75 

—  o.oa 

80 

o.oo 

85 

0.00 

-90 

0.00 

316 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   IQOO 


SYSTEMATIC  CORRECTIONS  IS  DECLINATION.    A88 


8 

Cape  40 

Grw  40 

Grw  45 

Radcl  45 

Pulk45 

Paris  45 

O 

+  90 

a 

a 

—  O.O2 

// 

—O.IO 

+0.25  (8) 

a 

o.oo 

// 

—0.08 

85 

—O.O7 

—  O.OI 

+0.48 

o.oo 

—0.07 

So 

—  O.IO 

+0.04 

+0.72 

o.oo 

—0.06 

75 

—  O.II 

+  O.O2 

+  0.77 

0.00 

—  0.06 

70 

—  O.II 

—  0.04 

+0.36 

+  0.04 

—0.06 

6S 

—  0.09 

+  O.OI 

+  0.29 

+  O.IO 

—O.IO 

60 

—0.07 

+0.07 

+  0.23 

+0.17 

—  O.I2 

+55 

—O.O4 

+0.03 

+0.15 

+  0.21 

—  O.IO 

5° 

—  O.O2 

—  0.09 

+0.03 

+0.23 

—0.04 

45 

—0.69 

+  0.01 

—0.14 

—  O.2I 

+0.26 

+0.03 

40 

—0.48 

+  0-°3 

—  O.II 

—  0.46 

+0.32 

+  0.06 

35 

-0.28 

+  0.06 

+  O.OI 

—  O.OO 

+0.36 

+0.06 

3° 

-0.13 

+  0.08 

+0.09 

-0.68 

+0.36 

+  O.OI 

+  *S 

-0.13 

+  O.II 

+  0.10 

-0.80 

+0-3S 

o.oo 

20 

—  O.20 

+0.13 

+0.07 

-0.80 

+0-34 

o.oo 

IS 

—  O.2O 

+  0.12 

+  0.01 

—0.62 

+o-33 

—0.04 

10 

—  O.o8 

+  O.IS 

—  O.O2 

—0.36 

+0.34 

—  0.12 

+  5 

+  0.16 

+  O.22 

—  O.O2 

—  O.IO 

+o-3S 

-O.IS 

o 

+0.52 

+  0.28 

+  0.04 

+0.19 

+0.38 

-O.I? 

-  s 

+0.65 

+  0.36 

+  0.07 

+0-3S 

+  0.42 

—  0.16 

IO 

+0.56 

+  0.40 

+  0.08 

+0-3S 

+  0.47 

-0.13 

IS 

+0.31 

+  0.42 

+  0.04 

+0.26 

+o-S3 

—  O.02 

20 

+O.2O 

+0.43 

—  O.OI 

+  0.03 

+  0.60 

+  0.17 

2S 

+0.18 

+0.38 

+  0.04 

—0.40 

+  0.40 

-30 

+O.IO 

+0.18 

+  0.40 

+0.66 

35 

—0.04 

40 

—  O.22 

45 

-0.38 

5° 

-0.52 

55 

—0.64 

-60 

-0.74 

65 

-0.79 

70 

-0.71 

75 

—O.42 

80 

—  o.ai 

85 

—0.07 

-90 

o.oo 

APPENDIX 


SYSTEMATIC  CORRECTIONS  IN  DECLINATION.    A58 


s 

Stgo  50 

Grw  50 

Gi  Z  50 

Cape  50 

PulksS 

Carrss 

+90 

// 

// 

—  0.02 

// 

n 

// 
-0.31 

rt 
—0.41 

85 

-0.03 

—0.26 

—0.85 

80 

—  0.04 

—  0.16 

-0.85 

75 

—  0.0(5 

-0.03 

70 

—  0.08 

o.oo 

65 

—  O.I2 

0.00 

60 

-0.18 

+0.05 

+  55 

—  0.21 

+0.25 

5° 

—  0.18 

+0.04 

45 

—  O.II 

+0.18 

40 

+0.17 

—0.07 

+0.32 

35 

+0.39 

—0.06 

+0.41 

3° 

+0.56 

—  O.O2 

+0.41 

+  25 

+0.69 

+0.06 

+  0.12 

20 

+0.78 

+  O.II 

+o-33 

15 

+0.84 

+  0.12 

+0.41 

IO 

+0.82 

+  0.08 

+0.40 

+  5 

+0.85 

0.00 

+0.35 

o 

+  0-93 

—0.07 

—0.28 

+0.30 

-  5 

+0.99 

—0.08 

-0-35 

+0-32 

10 

+  1.02 

—  0.05 

—0.29 

+0.46 

15 

+  1.00 

—  o.oa 

—0.09 

+o-S7 

20 

+0.93 

o.oo 

+  0.01 

+0.58 

25 

+0.82 

+  O.O2 

+0.05 

-3° 

+0.56 

+0.05 

+0.03 

35 

+0.25 

—  O.OI 

40 

+0.13 

—0.08 

45 

+0.27 

-0.17 

5° 

+0.36 

-0.36 

55 

+0.36 

- 

-0.38 

-60 

+0.19 

-0.17 

6S 

0.00 

+  0.10 

-0.23 

70 

o.oo 

+0.13 

-o-37 

75 

o.oo 

—0.07 

-0.31 

80 

0.00 

—0.19 

—  O.I2 

8S 

o.oo 

+0.06 

-0.03 

-90 

o.oo 

+  0.12 

O.OO 

PRELIMINARY  GENERAL   CATALOGUE   OF   STARS   FOR    IpOO 


SYSTEMATIC  CORRECTIONS  IN  DECLINATION.    A88 


s 

Stgo  55 

Wash  60 

Cape  60 

Grw  60 

Stgo  60 

Radcl  60 

0 

+  9° 

// 

// 

o.oo 

a 

// 

o.oo 

// 

It 

+  0.46  (8) 

85 

+0.08 

+0.06 

+°-75 

80 

+  O.20 

+0.13 

+  I.OI 

75 

+  0-3I 

+0.19 

+  1.06 

70 

+  0.28 

+0.25 

+0.95 

65 

+  0.19 

+0.29 

+0.78 

60 

+  0.22 

+0.31 

+0.60 

+  55 

+  0.36 

+0.30 

+0.43 

5° 

+  0.40 

+0.26 

+0.24 

45 

+  0.31 

+0.15 

+0.18 

—0.06 

40 

+  0.18 

+0.05 

+0.08 

-0-45 

35 

+0.14 

—0.05 

+  0.06 

—  0.70 

3° 

+0.14 

—0.16 

+  0.14 

o.oo 

—0.76 

+  25 

+  0.13 

-0.24 

+0.26 

—0.06 

—0.69 

20 

+  O.20 

+0.09 

-0.28 

+0.29 

—0.14 

-0.49 

15 

+  0.14 

—  O.OI 

-0.30 

+0.28 

—0.28 

—0.29 

10 

+  0.10 

—  O.20 

-0.30 

+0.23 

—0.46 

-0.08 

+  S 

+  0.06 

-0.27 

—0.29 

+  0.18 

—0.56 

+  0.12 

o 

+  0.04 

-0.25 

—0.29 

+  0.04 

-0.52 

+  0.32 

-  5 

+  0.03 

—  0.18 

-0.31 

+  O.02 

-0.30 

+o-53 

10 

—  O.OI 

—  O.IO 

-0-34 

+  O.04 

—  O.I2 

+0-73 

IS 

—  O.I  I 

—0.04 

—0.26 

+  O.IO 

—  O.I4 

+0.79 

20 

-0.25 

o.oo 

-0.05 

+  O.2O 

—  O.2O 

+0.70 

25 

-0-35 

+0.08 

+0.04 

+  0.32 

—  0.12 

+0.45 

-3° 

-0.34 

+0-30 

+  O.02 

+  0.46 

+  O.2I 

+  O.2O 

35 

—0.19 

+0.64 

O.OO 

+  0.63 

40 

—0.07 

—O.O4 

+  0.83 

45 

—0.04 

—  O.O6 

+  0.88 

5° 

—0.07 

—  O.06 

+0.76 

55 

-0.18 

—O.O4 

+0-55 

-60 

-o-3S 

O.OO 

+0-37 

65 

+0.05 

+0.25 

70 

+0.08 

+0.15 

75 

+O.IO 

+0.08 

80 

-0.50 

+O.IO 

+0.03 

85 

-0.38 

+0.09 

o.oo 

-90 

o.oo 

APPENDIX 


319 


SYSTEMATIC  CORRECTIONS  IN  DECLINATION.    A86 


s 

Melb6o 
(14) 

Paris  60 

Grw64 

Cape  65 

Bruss  65 

Pulk6g 

+90 

" 

o.oo 

o.oo 

" 

a 
+  0-34 

o.oo 

85 

0.00 

o.oo 

+0.44 

0.00 

80 

o.oo 

o.oo 

+0.50 

o.oo 

75 

o.oo 

0.00 

+0.54 

o.oo 

7o 

o.oo 

—  O.O2 

+0-55 

0.00 

65 

+  0.02 

—0.04 

+0.52 

0.00 

60 

+0.09 

—0.04 

+0.42 

+0.04 

+55 

+0.16 

0.00 

+  0.20 

+  O.II 

5° 

+0.16 

+0.06 

0.00 

+  0.21 

45 

+0.03 

+0.06 

+  0.22 

—  O.IO 

+0.26 

40 

+0.38 

—  O.IO 

+0.06 

+0.17 

—  0.12 

+0.27 

35 

+0.34 

-0.17 

+0.06 

+  0.12 

—  O.OI 

+0.24 

30 

+0.30 

—  O.2O 

+  O.IO 

+  0.07 

+0.08 

+0.23 

+  25 

+0.28 

-0.23 

+  0.12 

+  O.02 

+0.09 

+0.24 

20 

+  0.28 

—0.26 

+  O.II 

—  0.05 

+0.07 

+0.31 

15 

+o-35 

-0.28 

+0.09 

-0.17 

+0.04 

+0.36 

10 

+0.50 

-0.30 

+0.05 

-0.23 

+0.03 

+0.35 

+  5 

+0.78 

—0.29 

o.oo 

-0.2S 

+  O.OI 

+0.33 

o 

+0.90 

—0.27 

—0.04 

-0.27 

—  O.OI 

+0-35 

-  5 

+  0.90 

-0.23 

—0.05 

—  O.29 

—  O.OI 

+0.40 

10 

+0.76 

—  0.18 

o.oo 

-0.25 

+  O.OI 

+0.46 

15 

20 

+0-55 
+0.44 

—  O.IO 

+0.08 

+  O.II 

+0.26 

-0.15 
+  0.01 

+0.07 
+0.16 

+0.54 
+0.64 

25 

+0.41 

+0-37 

+0.46 

+0.07 

+0.26 

-3° 

+  0.40 

+0.80 

+0.66 

o.oo 

+0.45 

35 

+0.38 

—0.03 

40 

+0.30 

+  O.O2 

45 

+0.16 

+  O.09 

5° 

—0.05 

+  0.13 

55 

—0.29 

+  0.14 

-60 

-0.48 

+  0.14 

65 

-0-54 

+0.16 

70 

-0,52 

+0.17 

75 

—0.45 

+0.19 

80 

-o-33 

+  O.2I 

85 

-0.17 

+0.23 

-90 

0.00 

+0.25 

320 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    1900 


SYSTEMATIC  CORRECTIONS  IN  DECLINATION.    A88 


s 

Grw  72 

Melb  70 

Wash  75 

Cord  75 

(9) 

Madr  75 

(IS) 

Pulk75 

o 

»t 

H 

// 

// 

„ 

n 

+  9° 

0.00 

—  0.07 

+0.46 

—  O.OI 

85 

—0.04 

—0.04 

+0.56 

—0.05 

80 

—0.09 

+0.05 

+0.31 

—  O.IO 

7S 

—0.14 

+0.09 

—0.05 

—0.05 

70 

—  O.2O 

+  0.09 

-0.68 

+  0.12 

65 

—  0.28 

+  O.II 

-0-75 

—  o.oa 

60 

-0.36 

+0.15 

+0-55 

+  0.02 

+SS 

-0.44 

+  0.18 

—  O.2I 

+  0.07 

5° 

-0.49 

+0.18 

-0.38 

+  0.08 

45 

-0-53 

+  I.OO 

+  O.II 

-o-39 

+  0.09 

40 

-0.54 

+  o-73 

—  O.IO 

-0.44 

+  0.12 

•  35 

-0-54 

+  0.44 

—0.25 

-0.34 

+  0.09 

3° 

—0.52 

+0.16 

—0.30 

—0.90 

+0.42 

+  O.O2 

+  25 

—0.50 

-0.13 

—0.29 

—0.82 

+  0.56 

O.OO 

20 

-0.52 

-o-37 

—  0.29 

—0.72 

+  0.75 

+  0.03 

IS 

-0-S9 

-0-43 

—0.29 

-0.63 

+0.29 

+  0.09 

10 

-0.74 

-0.34 

—0.28 

-0.54 

—0.50 

+  0.14 

+  5 

-0-95 

—  O.I2 

—0.28 

-o.4S 

—0.67 

+  0.13 

o 

-«3 

-0.13 

—0.27 

-0.41 

+0.58 

+  0.07 

-  5 

—  1.26 

-0.25 

-0.28 

—0.41 

—  0.16 

+  O.IO 

10 

-1.34 

—0.36 

-0.31 

—0.40 

—0.23 

+0.24 

IS 

—  1.46 

—0.41 

-0.33 

-0.32 

-0.17 

+0.43 

30 

-1.70 

-0-43 

-0.30 

—  O.20 

—  0.2O 

+0.65 

S5 

—  2.09 

—0.41 

—  O.2I 

—  O.IO 

—  O.o8 

-30 

-2.53 

—0.42 

—  O.o6 

—  0.16 

+  0.69 

35 

-0.47 

+  0.22 

—0.26 

+  o-95 

40 

-0.63 

+  0.71 

-0.23 

+  i.ii 

45 

-0.63 

-0.18 

+0-75 

5° 

-0.51 

—0.14 

+0.13 

55 

-0.45 

—  O.II 

+0.16 

-60 

—0.46 

—0.08 

(  +  1.60) 

65 

—0.46 

—0.06 

(  +  1.20) 

70 

—0.42 

—0.04 

(  +  2.00) 

£ 

-0.31 

-0.03 

80 

—  0.18 

—  O.O2 

85 

-0.08 

—  O.OI 

-90 

o.oo 

O.OO 

APPENDIX   in 


321 


SYSTEMATIC  CORRECTIONS  IN  DECLINATION.    A68 


s 

Becker  75 

Harv  75 

Paris  75 

AGZ75 

Cape  So 

Grw  80 

o 

+90 

tt 
o.oo 

// 

o.oo 

+0.06 

H 

H 
O.OO 

85 

+0.03 

+  0.02 

+  0.02 

+  0.02 

80 

+  0.09 

+  0.06 

-0.03 

+  O.OS 

75 

+  0.18 

+  0.10 

—  O.O7 

+  O.II 

70 

+0.27 

+  0.09 

—  O.II 

+0.17 

65 

+0.30 

+0.05 

-0.15 

+  0.21 

60 

+0.30 

—0.05 

—  O.2O 

+  O.2I 

+  55 

+0.26 

—0.14 

-0.25 

+0.18 

5° 

+0.19 

—  O.II 

-0.34 

+  O.IO 

45 

+0.16 

+  O.IO 

—  0.41 

+  0.01 

40 

+  0.18 

+0.26 

-0.44 

"S 

+0-53 

—0.04 

35 

+  0.21 

+0.28 

—  O.42 

S 

+O.O3 

—0.06 

3° 

+  0.22 

+0.24 

—  0.36 

1 

—O.27 

—  O.OI 

+  25 

+  0.22 

+0.23 

-0.31 

1 

—0.30 

+  O.II 

20 

+  O.2I 

+0.31 

—  0.27 

s 

—  0.23 

+0.23 

15 

+  0.17 

+0.29 

-0.27 

% 

—  0.22 

+0.28 

10 

+  O.IO 

+0.06 

-0.28 

w 

—  0.22 

+0.26 

+  5 

+  0.06 

o.oo 

—  0.25 

-0.17 

+0.15 

o 

+  0.06 

+  O.H 

—  O.2O 

—  0.08 

+  O.II 

-  5 

+  O.II 

+0.25 

-0.18 

+O.OS 

+  0.22 

10 

+  0.2S 

+0.31 

-0.17 

+  0.08 

+  0.34 

15 

+  0.39 

+0.32 

-0.15 

+  0.08 

+  0.44 

20 

+  0.53 

+  0-33 

—0.04 

+  0.06 

+  O.SI 

25 

+  0.65 

+0.36 

+0.19 

—O.OS 

+0.61 

-3° 

+  0.79 

+0.42 

+0.55 

—  0.22 

+0.79 

35 

+0.51 

—  0.29 

40 

—O.26 

45 

—  O.IO 

5° 

+  0.04 

55 

+O.I2 

-60 

+0.16 

65 

+0.17 

70 

+0.25 

75 

+0-43 

80 

+0.44 

85 

+0.26 

-90 

o.oo 

322 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR 


SYSTEMATIC  CORRECTIONS  IN  DECLINATION.    A58 


MelbSo 

Strassb  85 

Cape  85 

PulkSs 

Radcl  90 

Cine  90 

+  9° 

ft 

rt 

O.OO 

// 

// 

O.OO 

rt 

-0.18 

rt 

85 

0.00 

0.00 

—0.07 

So 

O.OO 

O.OO 

O.OO 

75 

—  O.O2 

+  0.02 

0.00 

—  O.22 

70 

—0.06 

+0.04 

—  O.IO 

—0.19 

65 

—0.07 

+0.05 

-0.27 

-0.18 

60 

—0.07 

+0.06 

—0.46 

—0.19 

+  55 

—0.06 

+0.04 

-0.49 

—  O.22 

5° 

—0.07 

+0.04 

-o-39 

—  0.24 

45 

—0.09 

-1.03 

+0.05 

-o-39 

—  O.2I 

40 

+  0.86 

-0.08 

-0.8  1 

+  0.09 

-0-45 

—  0.12 

35 

+0.46 

—0.06 

—  o.6a 

+0.14 

-0.58 

+  0.05 

3° 

+0.06 

—0.05 

-0.47 

+0.18 

-0.68 

+  O.IO 

+  25 

-0.27 

—0.08 

-o-37 

+  0.22 

-0.74 

—  O.OI 

20 

-0.42 

—  O.IO 

-0.31 

+  0.24 

-0-75 

—  O.II 

IS 

-0.43 

—0.08 

—0.30 

+0.25 

-0.77 

—0.06 

10 

—0.40 

—  O.O2 

—  0.29 

+0.25 

-0.77 

+  0.07 

+  5 

—  0.26 

0.00 

-0.28 

+0.24 

-0.72 

+0.17 

0 

-0.32 

O.OO 

-0.27 

+  0.22 

—0.62 

+0.24 

-  5 

-0-53 

O.OO 

—0.26 

+  0.19 

-0-57 

+0.28 

10 

—0.67 

O.OO 

—0.26 

+  0.15 

-0.51 

+0.32 

15 

—0.69 

-0.03 

-0.27 

+  O.O6 

—0.45 

+0.38 

20 

—0.62 

—0.08 

—0.28 

-0.14 

—0.40 

+0-53 

25 

—0.63 

-0.13 

-0.28 

—  0.36 

+  0.79 

-3° 

-0.68 

—  0.18 

—  0.24 

—0.36 

+  1.14 

35 

—  0.69 

—0.19 

40 

—0.71 

—  0.16 

45 

-0.71 

-0.17 

5° 

—0.67 

—0.24 

55 

—0.60 

—0.30 

-60 

-0-45 

—0.29 

65 

-0.28 

—  O.2O 

70 

-0.17 

—  o.ta 

75 

—  O.IO 

—0.06 

0 

80 

—0.05 

—0.03 

85 

—  O.O2 

—  O.OI 

-go 

O.OO 

0.00 

APPENDIX 


323 


SYSTEMATIC  CORRECTIONS  IN  DECLINATION.    A58 


s 

Cape  go 

Grwgo 

Berl  oo 

Madngo 

Melbpo 

Miinga 

o 

+  9° 

" 

—  O.IO 

o.oo 

o.oo 

" 

0.00 

85 

—  O.IO 

+  0.03 

—0.06 

—0.05 

So 

—  O.IO 

+  0.07 

—  O.IO 

-0.14 

75 

—0.09 

+  0.13 

-0.13 

-0.24 

70 

—0.06 

+0.16 

—0.14 

-0.28 

6S 

—  o.oi 

+0.15 

-0.14 

-0.25 

60 

+  O.OI 

+  0.13 

—0.14 

—0.24 

+  55 

-0.03 

+0.09 

—  0.12 

-0.32 

5° 

—0.09 

+0.04 

—  0.08 

-0.44 

45 

-0.30 

—O.IO 

—  O.OI 

—  0.02 

—0.63 

40 

—0.07 

—0.08 

—0.06 

+  O.IO 

—  i.n 

-0.78 

35 

+  O.O2 

—0.06 

—  0.12 

+  0.26 

-1.07 

3° 

O.OO 

—0.05 

-0.14 

+  0.32 

—  1.09 

+  25 

—0.05 

—0.04 

—  O.II 

+  0.31 

-  .18 

20 

—0.06 

—  O.O2 

-0.08 

+  0.28 

-  .26 

IS 

—0.04 

0.00 

—0.06 

+  0.29 

-  -3° 

—0.70 

IO 

—  0.0  1 

+  0.02 

—0.03 

+  0.34 

-  .28 

-0.74 

+  5 

—  O.O2 

+0.03 

o.oo 

+  0.38 

-  .18 

-0.79 

o 

—  O.O5 

+0.04 

+0.03 

+  0.38 

—  I.OO 

-0.84 

—  5 

—  0.09 

+0.06 

+0.05 

+  0.34 

—0.90 

-0.89 

IO 

—  O.II 

+  0.12 

+  O.IO 

+  0.29 

-0.83 

-0.97 

15 

—  O.IO 

+  0.21 

+  0.22 

+  0.23 

-0.83 

-1.05 

20 

-0.08 

+  0.34 

+  0.42 

+0.18 

-0.86 

25 

—  O.OI 

+  0.50 

+o-73 

-0-93 

-3° 

+0.04 

+  0.70 

f  1.16 

—  I.OO 

35 
40 

+0.05 

+  O.O2 

-0-99 
-0.88 

45 

—  0.02 

-0.79 

5° 

-0.03 

-0-75 

55 

0.00 

—0.70 

-60 

+  0.02 

—0.60 

65 

+  0.04 

-0.47 

70 

+  0.04 

-0.31 

11 

+  0-03 
+  0.01 

—  0.18 
—0.09 

85 

O.OO 

—0.03 

-90 

o.oo 

o.oo 

324 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR   1 900 


SYSTEMATIC   CORRECTIONS  IN  DECLINATION.    A88 


s 

Lick  95 

Berl  95 

W-Ott  97 

Alb  oo 

Lick  oo 

Cine  oo 

o 

+  9° 

o.oo 

+0.09 

// 
o.oo 

-0.08 

+  0.08 

// 
o.oo 

8S 

+0.05 

+  0.07 

0.00 

+  O.O2 

+  0.08 

+0-03 

So 

+0.08 

+0.06 

o.oo 

+  0.18 

+0.09 

75 

+0.07 

+0.05 

o.oo 

+0.31 

+0.15 

70 

+0.05 

+0.07 

o.oo 

+  o-37 

+  O.2I 

65 

0.00 

+  O.II 

+  O.O2 

+  0.36 

+  0.26 

60 

+  0.15 

+0.07 

+  0.29 

+  0.29 

55 

+0.14 

+  0.06 

+0.17 

+  0.28 

5° 

+0.07 

-0.03 

+  O.IO 

+  0.24 

45 

+0.09 

—0.04 

—  0.19 

+0.06 

+0.18 

40 

0.00 

—  0.12 

+0.06 

+0.05 

35 

-0.17 

-0.17 

+  0.04 

-0.13 

3° 

-0.25 

—  O.I9 

-0.85 

—  0.0  1 

—0.24 

+  25 

-0.23 

-0.15 

—  1  .01 

—0.06 

-0-35 

20 

—0.14 

—  O.II 

-1.07 

—0.09 

-o-39 

IS 

—  0.10 

—  0.09 

-1.05 

—  O.IO 

-0.36 

IO 

—0.09 

—  o.io 

-0.98 

—0.09 

-0.25 

+  5 

—  0.10 

—0.07 

-0.85 

-0.05 

—0.07 

o 

—0.05 

—0.03 

-0.72 

+  0.01 

—  O.2I 

+  0.12 

-  5 

+0.04 

+  0.06 

—0.64 

o.oo 

—  0.24 

IO 

IS 

+0.14 

+  0.21 

+  0.13 

+  0.21 

-0-59 
—0.56 

—0.05 

-0.08 

-0.27 
—  0.26 

20 

+  0.26 

+  0.29 

-0.52 

—0.06 

-O.IS 

25 

+0.32 

+0-37 

—0.46 

—  0.02 

+  0.12 

-3° 

+0.43 

-0-35 

+0.06 

—  O.O4 

35 

+0.65 

+0.15 

+  0.13 

40 

+  I.I2 

+0.25 

+  0.36 

45 

+0.6  1 

5° 

55 

-60 

65 

70 

75 

,     80 

85 

-90 

APPENDIX   III 


325 


SYSTEMATIC  CORRECTIONS  IN  DECLINATION.    A88 


s 

Bonn  oo 

Cape  oo 

Cape  06 

o 

+90 

• 

it 

// 

85 

80 

75 

Rem.  (25) 

70 

65 

60 

+55 

+  0.20 

5° 

+  O.II 

45 

—  O.OI 

40 

—0.14 

35 

-0.25 

3° 

-0.31 

+  »S 

-0.32 

20 

—0.27 

—  O.22 

IS 
10 

—0.19 

—  0.12 

—O.O7 
+  0.06 

+  5 

—  O.O6 

+  O.II 

o 

—  o.oa 

+  0.06 

—  s 

—  O.O4 

10 

-0.08 

15 

—  O.O9 

2O 

—  O.O7 

25 

—  0.02 

-3° 

O.OO 

35 

—  0.19 

40 

45 

—0.29 
—0.36 

—  0.29 
—  0.36 

5° 

—0.40 

—0.40 

55 

—0.40 

—0.40 

-60 

—0.40 

—0.40 

65 

—0.40 

—0.40 

70 
75 

-0-39 
—0.36 

-o-39 
—0.36 

80 

—0.29 

—0.30 

85 

—0.22 

-90 

326 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR    1900 


SYSTEMATIC  CORRECTIONS  IN  DECLINATION  APPLICABLE  TO  A.   G.  ZONES. 


Kasan 

Christiania 

Hels.-Gotha 

Harvard 

Bonn 

Lund 

*         AS6 

S          AS* 

S            A£. 

J          AS{ 

*         ASS 

a       AS{ 

s       Ads 

5                      A5  r 

O                     // 

+  75     --25 

o             // 
+  65        +.22 

o             // 

+  55     --05 

O                     // 

+  61     -.12 

O                     // 

+  50     --37 

0                     // 

+  40       +.20 

0                     // 

+46    +.07 

O                     ft 

+  35     --30 

76        .25 

66       +.22 

56     +.ii 

62     —.02 

51     --37 

41        +.20 

47      +  -i<5 

36       —.22 

77        -25 
78        .25 

67        +.22 
68       +.22 

57     +.12 
58     +.04 

63     +  .06 
64     +.06 

52     -.37 
S3     --37 

42     +.18 
43     +-I4 

48     +-34 
49     +-36 

37     -•« 
38     -.15 

79        -25 

69       +.22 

59     -.10 

+  65     -.01 

54     --37 

44     +-07 

+  50     +.28 

39     -.22 

+  80     -.25 

+  70       +.22 

+  60     -.18 

+55     --37 

+  45     +-04 

+  40     -.28 

a        A5a 

a         AJa 

a 

AS. 

a        AS, 

a        Ad 

a        A8a 

b 

h 

h 

b 

h 

h 

o       .00 

o    +.15 

O 

+.13 

O     —.01 

0 

+  .02 

o     +.08 

I    +.06 

I    +.11 

I 

+.08 

i     -.05 

I 

+  .05 

I        +.10 

2       +.11 

2       +.04 

2 

+.03 

2       —.09 

2 

+  .07 

2       +.06 

3     +.15 

3     -.06 

3 

—  .02 

3     -.12 

3 

+  .09 

3         .00 

4     +-18 

4     -.19 

4 

-.07 

4     -.14 

4 

+  .10 

4     --09 

S     +.20 

5     -.28 

S 

—  .12 

S     -.16 

5 

+  .11 

5     -.16 

6       +.21 

6     --37 

6 

-.16 

6     -.16 

6 

+  .11 

6    —.19 

7     +.20 
8     +.14 

7     --46 
8    -.51 

I 

-.19 
—  .20 

7     -.15 
8     -.14 

7 
8 

+  .10 

+.08 

7     -.17 
8     -.10 

9     +.02 

9     -.52 

9 

—  .20 

9     -.11 

9 

+.06 

9     —.02 

10     —.14 

10     —.51 

10 

-.19 

10     —  .07 

10 

+  .04 

10     +  .04 

II       —.20 

ii     —.46 

ii 

-.17 

ii     -.03 

ii 

+  .01 

ii     +.07 

12       —.20 

12      -.36 

12 

-•13 

12       +.01 

12 

—  .02 

12       +.09 

13       -.17 

13       —.21 

13 

-.08 

13       +-05 

13 

—  •°5 

13     +.10 

14       —.12 

14   +.03 

14 

-•03 

14       +-09 

14 

-.07 

14    +.09 

IS     --05 
16     +.03 

15    +.15 

16     +.21 

IS 

16 

+  .O2 
+  .07 

IS       +.12 

16     +.14 

11 

-.09 
—  .10 

15    +.07 
16     +.05 

17     +.07 

17       +.22 

17 

+  .12 

17     +.16 

17 

—  .11 

17       +-OI 

18     +.10 

l8       +.22 

18 

+  .16 

18     +.16 

18 

—  .11 

18     -.03 

19     +-05 

19       +.22 

19 

+  .19 

19     +-15 

19 

—  .10 

19     -.05 

2O       —.01 

2O       +.22 

20 

+  .20 

20       +.14 

20 

-.08 

20     —.06 

21       -.08 

21       +.21 

21 

+  .20 

21       +.11 

21 

-.06 

21       —.05 

22       —.08 

22       +.20 

22 

+  .19 

22       +.07 

22 

-.04 

22       -.03 

23       -.06 

23     +.18 

23 

+  •17 

23       +.03 

23 

—  .01 

23       +.02 

24        .00 

24      +-I5 

24 

+  •13 

24     —.01 

24 

+  .02 

24      +.08 

APPENDIX   in 


327 


SYSTEMATIC  CORRECTIONS  IN  DECLINATION  APPLICABLE  TO  A.  G.  ZONES. 


Leiden 

Cambridge 

Berlin  B. 

Berlin  A. 

Leipsic  I 

Leipsic  II 

J         ASS 

S          A5» 

S         A5» 

*         A*, 

S          Ao» 

*          AS{ 

O                      // 

+  30      --3° 

0                   // 

+  25         -.28 

o              n 
+  20         +.24 

O                        // 

+  15      ~  -32 

0                    ft 

+  10      —  .05 

o              // 

31      —.14 

26         .00 

21         +.13 

16      —   .19 

ii       +.13 

6     —.05 

32      +.01 

27         +.22 

22         +.02 

17      -   .30 

12         +.29 

7      --05 

33      +  -10 

28        +.32 

23        -.08 

18      +   .14 

13         +-4I 

8      —.05 

34      +.08 

29        +.31 

24        —.12 

19      —  .10 

14        +-44 

9      —  .°5 

+  35      --°5 

+  30        +.22 

+  25      -.10 

+  20        —    .14 

+  IS         +.38 

+  10      —.05 

tt          A5 

a          A«a 

o          ASa 

a           ASa 

tt          A5 

a         A»a 

h 

h 

h 

h 

b 

h 

O       +.11 

o      +.10 

0        +.04 

o         .000 

o     +.34 

O        +.12 

I       +.09 

I         +.12 

I         +.02 

I              .000 

I       +-33 

I    +.13 

2        +.06 

2        +.13 

2         -.01 

2             .OOO 

2        +.3° 

2        +.14 

3      +.°4 

3      +-13 

3      —.04 

3         .000 

3      +-25 

3        +.15 

4         .00 

4      +.12 

4      —.°7 

4         .000 

4      +.16 

4      +-I3 

5     -.°3 

5      +•" 

5      -•" 

S         .000 

5      +-05 

5      +-°9 

6     -.06 

6      +.09 

6      —.14 

6         .000 

6     -.08 

6      +.03 

7     -.09 
8     -.11 

7      +.06 

8        +.02 

7      --17 
8      -.18 

7         .000 
8         .000 

7     -.23 
8     -.32 

7     ~  -°3 
8     -.10 

9      -.12 

9      —.01 

9      -.19 

9         .000 

9     --36 

9      --IS 

IO        —.13 

10      —.04 

10      —.18 

IO           .OOO 

w>     -.35 

10     —.19 

II          —.12 

ii      -.08 

n      —.16 

II               .000 

ii      —.26 

II         —.20 

12        —.11 

12        —.10 

12      -.13 

12            .000 

12        -.14 

12        —.19 

13        -.09 
14       —  .06 
IS        -.04 

16         .00 

13         --I2 

14      --13 

is    -.13 

IO        —.12 

13      -.08 
14      —.01 
IS      +-°8 
16      +.16 

13          .000 
14         .000 
15          .000 
16         .000 

13        --07 
14         —  .02 

IS        +.02 

16      +.04 

13        --I4 
14        -.08 

15     -.08 
16     -.08 

17     +-03 

17        —.11 

17      +.19 

17          .000 

17    +.06 

17     —.08 

18     +  .06 

18     —.09 

18     +.21 

18          .000 

18      +.09 

18     -.08 

19      +-09 
20     +.11 

19     —.06 

2O        —.02 

19        +.21 
20        +.18 

19          .000 

2O             .000 

19        +.12 
20        +.17 

19     —.08 

20        -.08 

21        +.12 

21        +.OI 

21        +.14 

21               .000 

21        +.24 

21        —.06 

22        +.12 

22        +  .04 

22       +.10 

22            .000 

22        +.30 

22        -.03 

23        +.12 

23        +.08 

23       +.06 

23          .000 

23        +.32 

23        +.04 

24        +.11 

24      +.10 

24       +.04 

24         .000 

24      +-34 

24        +.12 

328 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR 


SYSTEMATIC   CORRECTIONS  IN  DECLINATION  APPLICABLE  TO  A.   G.  ZONES. 


Albany 

Nikolaief 

Strassburg 

Wien-Ott. 

8        Ao  t 

5         A6» 

8        A88 

8         AS* 

0                // 

+  I    +.07 

o            // 
-    2       +  .25 

0                // 

—  6     —.05 

0                  // 

—  IO       —.OI 

a    +.07 

-    I       +.25 

5     --°4 

-  9     +-03 

3     +-°7 

o     +.25 

4     +.04 

-  8     -.03 

4     +-07 

+    I       +-2S 

3     +.1° 

-   7     --I5 

+  5     +.CJ 

-   2     +.13 

—  6     —.30 

ci         A5 

a         A«a 

•        A.. 

a        A«a 

h 

h 

h 

h 

o    +.17 

0      +.42 

o     +.17 

O       +.12 

I      +.21 

I      +.38 

I     +.16 

I        +.10 

2      +.23 

2       +.31 

2       +.IS 

2       +.07 

3     +-24 

3     +-23 

3     +.12 

3     +-09 

4     +^23 

4      +.12 

4     +-08 

4     +.16 

S       +-2I 

S       +.01 

S     +-04 

5    +.21 

6    +.17 

6    —.10 

6        .00 

6      +.21 

7     +.12 
8    +.06 

7    -.21 
8     -.30 

7     --04 
8     -.08 

7    +.14 

8       —.02 

9         .00 

9     --37 

9     -.12 

9     -.11 

10     —.06 

10    —.41 

10     —.15 

10    —.17 

II       —.12 

II      --43 

ii     —.16 

II       —.20 

12      —.17 

12       —.42 

12       —.17 

12       —.21 

13       —.21 

13      --38 

13       —.16 

13       —.20 

14      -.23 

14      --3I 

14      --IS 

14       -.18 

IS    --24 
16    -.23 

IS     --23 
16    —.12 

16     -.08 

IS       -.16 

16    —.14 

17      —.21 

17     —.01 

17     -.04 

17    —.11 

18    -.17 

18     +.10 

18        .00 

18    -.07 

19      —.12 

19       +-2I 

19     +-04 

19    -.03 

20      —.06 

20       +.30 

20       +.08 

2O       +.02 

21            .00 

21       +.37 

21       +.12 

21       +.07 

22       +  .06 

22       +.41 

22       +.15 

22       +.12 

23       +.12 

23       +-43 

23     +.16 

23       +.13 

24       +.17 

24       +.42 

24       +.17 

24      +.12 

APPENDIX    III 


329 


A.   G.   ZONES.     WEIGHTS  IN  RIGHT  ASCENSION. 

Number  of  observations  equivalent  to  "  weight." 


wt. 

Kasan 

Chr 

H-G 

Harv 

Bonn 

Lund 

Leid 

Camb 

Berl 
B. 

Berl 
A. 

Leip 

Leip 
II 

Alb 

Nik 

Str 

Wien- 
Ott 

.1 

i 

i 

•15 

i 

i 

.2 

2 

i 

2 

i 

•25 

i 

2 

i 

•3 

3 

3 

2 

i 

i 

•35 

3 

i 

•4 

i 

4 

4 

2 

4 

i 

3 

2 

i 

•S 

2 

2 

5 

4 

i 

.6 

3 

3 

6 

5 

2 

2 

3  + 

•7 

3 

2 

4-5 

4 

2 

7-9 

i 

2 

6-7 

3 

3 

2 

I.O 

4-5 

3 

6  + 

5-6 

3-4 

10  + 

3 

4 

4 

3 

2 

«-s 

6-7 

4  + 

7-9 

2 

4 

5-6 

5-7 

4  + 

3-4 

2.O 

8-9 

10  + 

3 

5 

7  + 

2-S 

IO—  II 

3-o 

12-13 

4 

3-5 

14-15 

5 

4.0 

16  + 

6 

A.   G.   ZONES.    WEIGHTS  IN  DECLINATION. 

Number  of  observations  equivalent  to  "  weight." 

Wt 

Kasan 

Chr 

H-G 

Harv 

Bonn 

Lund 

Leid 

Camb 

Berl 
B. 

Berl 
A. 

Leip 

Leip 
II 

Alb 

Nik 

Str 

Wien- 
Ott 

.1 

i 

i 

•'5 

i 

i 

i 

.2 

2 

i 

2 

•25 

2  + 

2 

2 

•3 

3 

i 

i 

i 

i 

3  + 

•35 

2 

3 

3 

i 

i 

•4 

4 

i 

i 

•5 

5-6 

3 

4  + 

4  + 

2 

i* 

.6 

7 

4  + 

2 

2 

2 

2 

•7 

8-9 

2 

3 

i 

3-4 

3 

2 

2 

I.O 

10  + 

3-4 

3-4 

4-7 

5  + 

4 

3-4 

3-4 

3 

2 

»-s 

5-8 

8+- 

2 

5  + 

5  + 

5  + 

4 

3 

2.0 

9  + 

3-5 

5  + 

4  + 

*  The  weight  in  declination  for  Wien-Ottakring  is  decidedly  smaller  for  stars  fainter  than  8^5- 


330 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   IQOO 


WEIGHTS    IN  RIGHT  ASCENSION  CORRESPONDING  TO  NUMBER   OF  OBSERVATIONS 

IN  RESPECTIVE  CATALOGUES. 


Wts 

Bri75S 

Pi  00 

Groomb 

10 

Konis 

Grw  15 

Dptis 

Konao 

Schw 
28 

Cape  30 

Camb 

Wrot 
30 

•OS 

»-3 

8-23 

i 

i 

i 

i 

.1 

4-5 

24  + 

2 

2 

i 

I 

2 

i 

2 

•15 

6-7 

3 

3 

2 

i 

2 

4 

2 

3 

.2 

8-9 

4 

4-5 

3 

2 

3 

5 

3 

•25 

IO—  IZ 

S 

6 

3 

4 

7-8 

4 

6-8 

•3 

13-14 

6-7 

7 

4 

2 

4 

5 

9-n 

5 

9  + 

•35 

15  —  16 

>d 

8 

8-9 

5 

6 

12  —  14 

6-7 

•4 

17  + 

J^ 

9-11 

10—12 

6-7 

3 

5 

7-9 

15  —  20 

8-10 

•S 

E 

12-15 

13-15 

8-9 

4 

6 

10—12 

21-37 

11  —  14 

.6 

in 

g 

16  + 

16  —  20 

IO—  12 

5 

7-8 

13-17 

38-74 

15-24 

•7 

«  o 

& 

21  —  25 

I3  —  I6 

6 

9-n 

18-24 

75  + 

25-64 

I.O 

I"8   « 

1 

26+ 

17 

7-15 
16  + 

12  —  18 
19-30 

25  + 

65  + 

3.O 

u  C  *9 

31-49 

3-5 

slJ 

50-77 

Wts 

StH3o 

Abo  30 

Grw  30 

Dpt30 

Cape  33 

Madr 
35 

Edinb  40 

Arm 
40 

Cape  40 

Grw  40 

Grw  45 

•05 

i 

i 

i 

i 

.1 

i 

3-4 

i 

i 

2  —  3 

2 

3—3 

2 

i 

i 

•IS 

2 

i 

5-6 

2 

4-5 

4-5 

3 

3 

.3 

3 

7-8 

6-7 

3 

6-8 

4 

3 

2 

•35 

4 

9-n 

3 

2 

8  —  io 

4 

9-12 

S 

3 

•3 

5 

2 

12-15 

4 

11-13 

5 

13-17 

6 

4 

•35 

6 

16  —  20 

5 

3 

14  —  18 

18-26 

7 

5 

4 

•4 

7 

21-30 

6 

4 

19-27 

6-7 

27  + 

8 

6-7 

5 

•5 

8  —  io 

3 

31-45 

7-8 

5 

28  + 

8 

9-n 

8-9 

6-7 

.6 

11  —  14 

4 

46  + 

9 

6 

9  —  10 

12-13 

10—12 

8 

•7 

15-19 

5-6 

IO—  II 

7-8 

o. 

11  —  14 

14-18 

13-14 

9—10 

I.O 

20  + 

7-9 

12-25 

9-i9 

i 

15-27 

19-28 

15-42 

11  —  22 

!-5 

10-13 

26  —  50 

20-44 

l 

28-50 

29-43 

43  + 

23-39 

3.O 

14-19 

51  + 

45  + 

"3 

51-102 

44  + 

40-74 

3-5 

20  —  26 

t/j  *J 

103  + 

75  + 

3-° 

27-34 

-a  tD 

3-5 

35-43 

li 

4.0 

44-62 

CJ 

5-o 

63  + 

jpg 

6.0 

+  .c 

7-o 

•s 

8.0 

| 

9.0 

o 

10.0 

APPENDIX   in 


331 


WEIGHTS  IN  RIGHT-ASCENSION. 


Wts 

Radcl  45 

Pulk45 

Paris  45 

Stgo  50 

GiZ 
50 

Cape  50 

Grw  50 

Pulkss 

S.  +  60°      N.  +  60° 

S.  of  6o»  Nof+  60° 

S.  of  +  6o«  N.  of  +  60" 

.05 

I 

.i 

I 

i 

i 

i 

i 

i 

•15 

a             i 

2                       I 

2 

2 

i 

.2 

3 

2 

3 

2 

2 

•25 

4 

I 

3 

3 

•3 

5              3 

4                     2 

4 

3  + 

4-5 

3 

3        » 

•35 

6 

S 

•4 

7-9        3-4 

6               3 

5 

6-9 

4 

4 

•5 

10  —  12        5—6 

a 

7 

6-7 

10  —  14 

5-6 

5         3         * 

.6 

13-15      7-9 

i 

8-9             4 

8-9 

15-24 

7 

6-9      4 

•7 

l8  —  24       10—12 

3 

IO—  12            5—6 

IO—  II 

25  + 

8-9 

5        a 

I.O 

25+             13  + 

4-5               2 

13  —  22            7  —  10 

12  —  25 

10—  16 

10-19           3-4 

1.5 

6-8 

23-38       11-16 

26-54 

17  —  26 

20+               5  + 

2.0 

9-12      3-4 

39-63       17-24 

55  + 

27-40 

£• 

2-5 

13  —  15         5 

64  —  109     25—38 

41—60 

M 

3-° 

16  —  20         6 

110+           39-57 

61—90 

a 

3-5 

21  —  26         7 

58-94 

91  + 

1        1 

4-o 

27-36      8-9 

95  + 

0          X 

5-o 

37-57     10-13 

•n          8 

6.0 

58+         14-18 

c       w 

7-o 

19-24 

o         o'        o 

8.0 

25-34 

s>    §.    a 

9.0 

35-47 

+    +    + 

10.0 

48  + 

Wts 

Carr  55 

Stgo  55 

Wash 
60 

Cape  60 

Grw  60 

Stgo  60 

Radcl 
60 

Melb 
60 

Paris  60 

Grw  64 

.05 

i 

.1 

i 

i 

i 

i 

i 

•15 

2 

i 

2 

2 

i 

2                                      I 

.2 

i 

3 

2 

i 

3 

3 

3             a 

i 

•25 

4 

432 

•3 

4-5 

3 

2 

4-5 

5 

2 

5 

•35 

2 

2 

6 

4             3 

.4 

6-9 

4 

3 

6-9 

7 

6-7          5 

2 

-5 

3 

10  —  14 

5-6 

4 

3 

10—14 

8-9 

3 

8           6-7           4 

.6 

15  —  24 

7 

5 

15-24 

IO—  II 

4 

9—10         8              5 

3 

•7 

4 

25  + 

8  —  io 

6-7 

4 

25  + 

12  —  l6 

5 

11-13      9~io     6-7 

I.O 

5-7 

it  —  16 

8-n 

5-7 

17+ 

6-9 

14  —  22    ii  —  ai      8  —  14 

4-6 

'•5 

8-12 

17-27 

12  —  16 

8-12 

10  —  13 

23-51    22-51    15-51 

7-9 

2.0 
2-5 

13-17 
18-23 

28-40 
41—60 

17-24 

25-37 

I3-I7 
18-23 

14-19 
20-25 

52-70    52-70    52-70 
71+        71+        71  + 

10—12 
I3  —  I6 

3-o 

24-31 

61  —  90 

38-56 

24-31 

26-33 

17  —  21 

3-5 

32-41 
42-64 

91  + 

57  + 

32-41 
42-64 

34-43 
44  + 

| 

22-25 
26-34 

5-° 

65  + 

65  + 

v> 

35-49 

6.0 

3 

50-74 

7-o 

3 

75  + 

8.0 

°°         ""        °& 

9.0 

+         +         + 

IO.O 

332 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   IQOO 


WEIGHTS  IN   RIGHT  ASCENSION. 


Weights 

Harv6s 

Cape  65 

Bruss  65 

Pulk6$ 

Grw  72 

Melb  70 

Wash  75 

Cord  75 

S.of+6o°  N.of  +  6o° 

To  +  60°     N.of+6o° 

•05 

.1 

i 

•IS 

i 

i 

i 

.2 

2 

i 

i 

•25 

I 

•3 

2 

2 

3 

2 

2 

•35 

2 

3 

•4 

3 

3 

4 

4 

•5 

4 

4 

I 

2                      I 

3 

3 

5 

.6 

5 

S 

5-6 

I 

4 

6-7 

•7 

6 

6 

7 

3 

4 

5 

8  —  io 

I.O 

7-14 

7-n 

8-27 

2 

4-S             2 

5-7 

6-8 

11-27 

1.5 

15  + 

12  —  19 

28  + 

3                      2 

6-8        3-4 

8-n 

9-12 

28  + 

a.o 

20  —  31 

4-5             3 

9-10          5 

12  —  16 

13-16 

2-5 

32-49 

6                4 

11-13          6 

17-21 

17-21 

Oc 

50  + 

7-8 

14-17       7-8 

22  —  27 

22  —  26 

E 

Bfl 

3-5 

9                6 

18  —  21      9  —  10 

28-34 

27-31 

a 

4.0 

10-13      7-8 

22  —  29     "  —  13 

35-49 

32-40 

.a 

5-o 

14-17      9~" 

30-38     14-19 

50-77 

4i-54 

i 

6.0 

18-27     12-13 

39-53     20-27 

78  + 

55-72 

w 

7.0 

28-34     14-17 

54-73     28-36 

73-93 

8.0 

35-55     18-22 

74+         37-52 

94  + 

9.0 

56+         23-27 

53  + 

IO.O 

28  + 

Weights 

Madr  75 

Pulk75 

Becker 
75 

Harv75 

Paris  75 

AGZ75 

Cape  80 

Grw  80 

To  +  60°     N.of  +  6o° 

To  +  70°     N.  of  +  70° 

•°S 

I                  1  —  2                  2 

.1 

2-3           3              3 

I 

i 

i 

.15 

4          4-5        4-6 

.2 

5—6        6  —  7        7  —  10 

2                   I 

I 

2 

•25 

7  —  9           8         ii  —  16 

2 

i 

•3 

10  —  12       9—10     17  —  24 

3 

3 

in 

•35 

13  —  16     ii  —  12     25—60 

2 

2                     I 

o 

3 

3 

•4 

17-22     13-15     61  + 

4 

4 

•5 

23-45     16-19 

S              3 

i 

3 

5 

3 

4 

2 

.6 

46+         20—23 

6 

4 

6 

5 

•7 

24-33 

7-8           4 

5              2 

7-9 

1 

6-7 

3 

I.O 

34-6o 

9-12      5-7 

2-3 

6-8           3 

to  —  16 

u 

6 

C/} 

8-u 

4-5 

1.5 

61+             TJ 

13  —  17      8—io 

4-5 

9-11      4-5 

17-28 

12  —  17 

6-7 

2.0 

a 

18-23     11-13 

6  + 

12-15      6-7 

29-46 

18  —  25 

8  —  io 

2-5 

g 

24-29     14-17 

16  —  19      8  —  9 

47-79 

26-33 

11-13 

3-° 

o              "3 

a                      O                    3 

30  —  35     18  —  20 

20  —  24     10  —  ii 

80  + 

34-44 

14-17 

3-5 

fc       T       s 

36-42     21-24 

25-29     12-13 

45-56 

18-22 

4-0 

"S 

43-52     25-29 

30-37     M-I7 

57-82 

23-29 

5-o 

+                o                c 

53-68    30-41 

38-49     18-24 

83  + 

30-44 

6.0 

3               o                 o 

69-85     42-53 

50  —  64     28—33 

45-63 

7.0 

JJ               •a                in 

86+         54-66 

65+          34-44 

64  + 

8.0 

(2         +         i 

67-83 

45-60 

9.0 

84  + 

61-82 

IO.O 

APPENDIX   III 


333 


WEIGHTS  IN  RIGHT  ASCENSION. 


Wts. 

MelbSo 

Saff  85 

Strassb 
85 

Cape  85 

Pulk  85 

Radclpo 

Cine  oo 

Cape  oo 

Grw  90 

o 

S.  of  -  60° 

To  +  60°    N.of+6o° 

.i 

i 

•15 

I 

i 

i 

i 

.2 

•25 

2 

2                     I 

2 

•3 

2 

2 

i 

•35 

3 

•4 

i 

3 

3 

3 

•5 

4 

4                      2 

I 

4 

4 

3 

2 

.6 

5 

5 

5-6 

4 

•7 

6 

i 

6             3 

I 

5-6 

7-9 

5 

3 

I.O 

7-8 

2-3 

7-9        4-5 

2 

7-9 

10  + 

6-8 

4 

i-S 

9-14 

2 

4 

10  —  14      6  —  7 

3              2 

10—14 

9-12 

5-7 

2.0 

15-22 

3 

5-6 

15-18      8-10 

4-5           3 

15-19 

13  —  16 

8.9 

2-5 

23-34 

4 

7-8 

19  —  22     11  —  13 

6               4 

20  —  24 

17  —  21 

IO  —  II 

35-49 

5 

9  —  10 

23  —  27     14  —  16 

7—8           5 

25-30 

22  —  26 

12-14 

3-5 

5o-7i 

6-7 

II  —  12 

28-32     17-19 

9              6 

3i-37 

27-31 

15~  J7 

4.0 

72  + 

8-9 

I3-I6 

33-39     20-26 

10-13      7-8 

38-48 

32-39 

18-23 

5.0 

10—14 

17-24 

40-50     27-36 

14-17      9-11 

49-65 

40-53 

24-31 

6.0 

«S~»3 

25-35 

51-62     37-50 

18-27     12  —  13 

66  + 

54-70 

32-42 

7.0 

24-37 

63-75   s1-6? 

28-34     14-17 

71-90 

43-56 

8.0 

38-69 

51-79 

76+         68  + 

35-55     18-22 

91  + 

57-76 

9.0 

70  + 

80  + 

56+        23-27 

77  + 

IO.O 

28  + 

Weights 

Berl  90 

Madn  90 

Lisb  90 

Melb  90 

Pulk  92 

Lick  95 

Berl  95 

Alb  oo 

Lick  oo 

Miin  oo 

.1 

00 

H 

•15 

.2 

i 

i 

| 

•25 

2 

• 

H 

•3 

i 

• 

•35 

3 

C/3 

C/2 

•4 

•5 

4 

i 

I 

.6 

5 

i 

•7 

i 

6 

I 

I.O 

i 

i 

7-8 

2 

i 

2 

2 

1.5 

2 

9-14 

3 

2 

3 

3 

2.O 

2 

3 

2 

15-22 

4-5 

2 

3 

4-5 

4 

2-5 

4 

3 

23-34 

6 

4 

6 

1  "—  6 

3 

5 

35-49 

7-8 

3 

7-8 

7  —  8 

3-5 

4 

6-7 

4 

9 

4 

9—10 

9  —  10 

4.0 

6*8 

8-9 
10  —  14 

5-6 

7-8 

72  + 

10-13 
14-17 

8  + 

6-8 

11  + 

11-14 
15-24 

6.0 

7.0 

9-11 
12  —  16 

15-23 
24-37 

9-11 

12-15 

18-27 
28-34 

9-ii 
12  —  16 

25  + 

8.0 

17-23 

38-69 

16  —  21 

35-55 

17-23 

9-o 

24-39 

70  + 

22-31 

56  + 

24-39 

IO.O 

40  + 

32  + 

40  + 

334 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   1900 


WEIGHTS  IN  RIGHT  ASCENSION. 


Weights 

Cape  oo 

Cine  oo 

Bonn  oo 

Cape  06 

? 

« 

•15 

.2 

i 

i 

•3 

X 

•35 

•4 

a 

•5 

I 

i 

.6 

3 

•7 

4 

i 

I.O 

2 

5  + 

a 

1.5 

3 

2 

3 

2.0 

4-5 

3 

4-5 

2-5 

6-7 

4 

6-7 

8-10 

5  + 

8-10 

3-5 

11  + 

11-13 

4.0 

14+ 

e!° 

7.0 

C  n 

o.o 

9.0 

10.0 

APPENDIX   HI 


335 


WEIGHTS  IN  DECLINATION  CORRESPONDING  TO  NUMBER  OF  OBSERVATIONS 

IN  THE  CATALOGUE. 


Wts. 

Br  1755 

Pi  oo 

Groomb 

IO 

Grw  15 

Kon 

20 

Schw 
28 

Brisb 
25 

Cape  30 

Carab 
3<> 

StH30 

Xbo  30 

Grw30 

•°S 

i 

i-3 

• 
p 

i 

2  —  10 

i 

i 

.1 

2-3 

4     8 

i 

be 
o 

2-3 

11  + 

i 

2 

•ij 

4 

9-17 

2 

i 

3 

4-5 

2-3 

3-4 

2 

.2 

5-7 

18  + 

3 

0 

6-7 

4-6 

i 

5 

•25 

8-10 

4 

2 

w 

£- 

8-10 

7-9 

6-7 

3 

•3 

ii  —  16 

5 

11-13 

10  + 

2 

8-10 

4 

•35 

17-27 

6-7 

% 

14-18 

11-14 

5 

•4 

28  + 

8-10 

3 

t 

19-27 

15-22 

i 

6 

•5 

ii  —  20 

4 

28  + 

3 

23  + 

7-9 

.6 

21-49 

5 

8 

4 

10-13 

•7 

50  + 

6-7 

V 

5-7 

2 

14-25 

A 

I.O 

8-n 

| 

8-18 

3 

26  + 

i-5 

12  —  17 

„ 

19  + 

4-6 

2.O 

18-24 

B 

7-10 

2-5 

25-34 

I 

ii  —  16 

3-° 

35  + 

bO 

17-29 

3-5 

y 

<^ 

30-68 

4-° 

69  + 

Wts. 

Dpt  30 

Capeaa 

Madr  35 

Edinb 
40 

Arm  40 

Cape  40 

Grw  40 

Grw45 

Radcl 
45 

Pulk45 

Paris  45 

•°S 

i 

.1 

i 

•15 

i 

a-3 

2 

J 

i 

.2 

4-5 

i 

i 

i 

i 

i 

u 

•25 

6-8 

3 

K 

•3 

2 

9  + 

4 

2 

2-3 

I 

2 

•35 

2 

5 

2 

•4 

i 

6 

2 

4-5 

3 

•5 

3 

3 

7-9 

3 

3 

6—io 

4 

.6 

4 

4 

10—12 

4 

4 

3 

11-23 

5 

•7 

2 

S 

5-6 

13  + 

5-6 

5-6 

4 

24  + 

6-7 

I.O 

3 

6—12 

7-n 

7-iS 

7-n 

5-8 

I 

8-12 

i-5 

4-6 

13  + 

12  —  22 

16  + 

12  —  21 

9-14 

13-22 

2.O 

2-5 

7-10 

II  —  IO 

23-49 
5°  + 

22-45 
46  + 

15  —  26 
27-50 

2 

3 

23-35 
36-69 

3-° 

17-29 

5i  + 

4-5 

70  + 

3-5 

30-68 

6 

4.0 

69  + 

7-ii 

5-° 

12  + 

336 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR   IQOO 


WEIGHTS  IN  DECLINATION. 


Wts. 

Stgo 
SO 

Grwso 

GiZ  50 

Cape 
5° 

Pulk 
55 

Carr 

55 

Stgo 
55 

Wash 
60 

Cape 
60 

Grw 
60 

Stgo 
60 

Radcl 
60 

Melb 
60 

•°s 

i 

i 

i 

i 

.1 

2 

(21) 

i 

i 

•15 

2 

3  + 

2 

2 

2 

i 

.2 

i 

i 

i 

3 

2 

3 

3 

•25 

3 

i 

4 

•3 

4 

2 

4 

3 

4 

5 

2 

•35 

5 

5-6 

4 

5-6 

6-7 

•4 

6 

2 

2 

7-9 

5 

2 

i 

7-9 

8-n 

3 

•5 

7-9 

3 

3 

IO—  12 

6 

IO—  12 

12  + 

4 

.6 

10-13 

4 

4 

3 

13-17 

7-8 

3 

!3-i7 

5 

•7 

14—25 

5-6 

5 

4 

3 

18-24 

9-12 

4 

2 

18-24 

6-7 

I.O 

26  + 

7-n 

6—14 

5-6 

4-6 

25  + 

13-27 

5-6 

3-4 

25+ 

8-12 

*-s 

12  —  21 

i5  + 

7-10 

7-8 

28-79 

7-10 

5-6 

13  —  22 

2.0 

22-45 

ii  —  16 

9-n 

80  + 

ii  —  16 

7-10 

23-37 

2-5 

46  + 

17  —  24 

12-15 

17-24 

11  —  14 

38-69 

3-° 

25-37 

16  —  20 

25-37 

15  —  22 

7°  + 

3-5 

38-60 

21-25 

38-60 

23-37 

4.0 

61  + 

26-39 

en- 

38  + 

S-° 

40  + 

6.0 

7.0 

8.0 

9.0 

10.0 

Wts. 

Paris  60 

Grw64 

Cape6$ 

Bruss 
65 

Pulk  65 

Grw  72 

Melb 
70 

Wash 
75 

Cord  75 

Madr 
75 

Pulk  75 

Becker 
75 

•°5 

i 

.1 

2 

•IS 

i 

(22) 

3 

.2 

i 

i 

4 

•25 

i 

i 

5-6 

•3 

2 

i 

i 

7 

•35 

8-9 

•4 

3 

i 

2 

2 

2 

2 

10-13 

i 

•5 

4 

2 

2 

3-4 

14-19 

.6 

5 

3 

3 

3 

5-6 

20  —  29 

•7 

6-7 

2 

4 

3-5 

4 

3 

4 

7-10 

30  + 

2 

i 

I.O 

8—12 

3-4 

5-6 

6  + 

i 

5-6 

4-6 

5-7 

n  + 

3 

2-3 

i-5 

13-22 

5-6 

7-10 

7-10 

7-12 

8-10 

4 

4-5 

2.0 

23-37 

7-10 

ii  —  16 

2 

ii  —  16 

13-27 

11  —  14 

Jl 

5-6 

6  + 

2-5 

38-69 

11  —  14 

17-24 

17-24 

28+ 

15-18 

J 

7-8 

3-o 

70  + 

15  —  22 

25-38 

3 

25-37 

19-23 

'u 

9  —  10 

3-5 

23-37 

39-6o 

4 

38-60 

24-29 

"o 

II  —  12 

4- 

38  + 

en- 

5 

61  + 

30  —  40 

g 

13-17 

5- 

6-8 

41—60 

•3 

18  —  23 

6. 

5"—  IO 

61  —  90 

0 

24-33 

7- 

11  —  14 

9i  + 

P. 

34-45 

8. 

15-18 

1 

46-65 

9- 

19  —  26 

K 

66  + 

10.0 

27  + 

APPENDIX   III 


337 


WEIGHTS  IN  DECLINATION. 


Wts. 

Harv 
75 

Paris  75 

AGZ75 

Cape 
So 

Grw 
So 

Melb 
So 

Strassb 
85 

Cape 
85 

Pulk 
85 

Radcl 
go 

Cine 
oo 

Cape 
go 

Grw 
go 

•05 

.i 

i 

(22) 

•'5 

i 

fl 

.2 

2 

3 
ri 

•25 

3 

* 

i 

i 

i 

i 

•3 

2 

•B 

i 

i 

i 

i 

i 

•35 

4 

fi 

0. 

•4 

5 

3 

2 

2 

•5 

6 

4 

R 

• 

2 

2 

2 

.6 

7-8 

5 

C/} 

2 

3 

2 

2 

3 

3 

2 

•  7 

9-11 

6-7 

3 

4 

3 

4 

4 

3 

I.O 

12  —  2O 

8-12 

3-4 

4-5 

5-7 

3-4 

4 

I 

5-6 

5  + 

4-5 

3-4 

1.5 

21-35 

13  —  22 

5-6 

6-7 

8-12 

5-6 

5-7 

7  —  10 

6-8 

5-6 

2.0 

2-5 
3-0 

16  —  60 
61  + 

23-37 
38-69 
70  + 

7-9 
10  —  13 
14-17 

8-10 
11  —  14 

13-21 
22-35 

36+ 

7-8 
9-n 
12  —  14 

8-n 
12-15 
16  —  21 

2 

3 

11-15 
16  —  21 
22  —  29 

9-11 
12-15 
16  —  20 

7-8 
9-n 
12  —  14 

3-5 

18-24 

18-22 

15  —  18 

22  —  29 

4 

30-41 

21  —  26 

15-18 

4.0 

25  + 

23-32 

19-24 

30-49 

5 

42-75 

27-39 

19—24 

S-o 
6.0 

33-51 
52-87 

25-37 
38-56 

50  + 

6-8 
9  —  10 

76  + 

40-67 
68  + 

25-37 
38-56 

7-o 

88  + 

57-90 

11  —  14 

57-90 

8.0 

91  + 

15-18 

9.0 

19  —  26 

IO.O 

27  + 

Wts. 

Berl 
go 

Madn 
go 

Melb 
go 

Miin 
92 

Lick 
95 

Berl 
95 

W-Ott 
97 

Alb 

00 

Lick 

00 

Cine 

00 

Bonn 

00 

Cape 
oo 

CoT 

•05 

(23) 

(24) 

.i 

•'5 

to 

.3 

i 

**** 

•25 

i 

i 

i 

•3 

M 

•35 

•4 

2 

2 

2 

•5 

i 

i 

3 

.6 

3 

3 

4 

i 

i 

•7 

4 

4 

5  + 

I.O 

i 

2 

5-7 

i 

5-7 

2 

i 

i 

2 

2 

i-S 

3-4 

8—12 

8-n 

3 

2 

3 

3 

2.O 

2 

5 

13  —  21 

2 

i  .>  -  16 

4-5 

3-5 

2 

4 

4 

2-5 

6-7 

22-35 

I,  —22 

6-8 

6  + 

3 

5 

5 

3 

8 

36+ 

All 

3 

?3~  29 

9  + 

4 

6-7 

6-7 

3-5 

9  —  10 

All 

30-38 

5  + 

8-9 

8-9 

4-0 

4-5 

11  —  14 

4-5 

39-59 

IO—  12 

IO—  12 

S-o 

6-7 

15  —  19 

6-7 

60  + 

13  + 

13  + 

6.0 

8-n 

20  —  27 

8-u 

7.0 

12-18 

28-37 

12-18 

8.0 

19-35 

38-53 

19-35 

9.0 

36  + 

54-77 

36  + 

IO.O 

78  + 

338 


PRELIMINARY  GENERAL  CATALOGUE  OF  STARS  FOR   1900 


REMARKS  UPON  THE  TABLES  OF  SYSTEMATIC  CORRECTIONS 

AND  WEIGHTS. 

(1)  Bradley  1755.    The  term  in  Aaa,  depending  on  tgS,  applies  north  of  declination  +60°,  and 
it  is  necessarily  very  uncertain. 

(2)  Pulkowa  1855.     The  observations  upon  which  this  Catalogue  is  based  extend  over  a  long 
period,  and  were  chiefly  made  in  broad  zones.     The  mean  Aaa  applicable  to  the  entire  Catalogue 
is  not  far  from  +^007.    Taking  the  Catalogue  by  zones,  the  following  corrections  have  been 
determined,  and  may  be  substituted  for  the  uniform  correction  +foo7. 


-20°  tO  0° 

o°  to  +30° 

+30°  to  +60° 

+60°  to  Pole 

h 

o 

s 

+.006 

s 

.000 

s 
—  .004 

s                     a 

+  .007                +.012  tgS 

I 

+  .009 

.000 

-.003 

+  .007          +.010 

2 

+.013 

+  .001 

—  .001 

+  .007          +.010 

3 

+  .016 

+  .001 

+.003 

+  .007          +.010 

4 

+.018 

+  .OO2 

+  .009 

+  .007          +.011 

5 

+  .020 

+  .004 

+.017 

+  .007          +.010 

6 

+  .020 

+  .006 

+  .O20 

+  .007          +.007 

7 

+  .020 

+  .007 

+  .O2O 

+  .007          +  .004 

8 

+  .019 

+  .009 

+  .016 

+  .007          —.001 

9 

+  .017 

+  .OII 

+  .011 

+  .007           —  .005 

10 

+  .OIS 

+  .012 

+  .OO6 

+  .007          —.009 

ii 

+  .OI2 

+  .013 

+  .003 

+  .007        -.013 

12 

+  .008 

+  .014 

+  .005 

+.007        -.015 

"3 

+  .OOS 

+  .OI4 

+  .OIO 

+  .007        —.017 

14 

+  .OOI 

+  .013 

+.015 

+  .007          —.018 

IS 

—  .002 

+  .013 

+  .016 

+  .007         —.019 

16 

—  .004 

+  .OI2 

+.013 

+  .007              —  .020 

17 

-.006 

+  .010 

+.008 

+  .007             —  .020 

18 

—  .006 

+  .008 

+  .001 

+  .007          —.016 

19 

-.006 

+  .007 

—.004 

+  .007          —  .006 

20 

-.005 

+  .005 

-.006 

+  .007          +.010 

21 

-.003 

+  .003 

-.007 

+  .007          +.019 

22 

—  .OOI 

+  .002 

-.007 

+  .007                +.021 

23 

+  .OO2 

+  .OOI 

—  .006 

+  .007          +.017 

24 

+.006 

.OOO 

-.005 

+  .OO7              +.OI2 

(3)  Pulkowa  75.  The  second  term  multiplied  by  "k"  is  computed  under  the  hypothesis  of  a 
systematic  error  in  adopted  collimation,  varying  with  the  time  of  year  (or  with  the  temperature). 
The  form  of  such  a  correction  would  be : 

P 


(a  sin  o  +  b  cos  o) 


i-tg- 


wherein  P  is  the  polar  distance,  and  the  unit  factor  corresponds  to  45°  of  declination.    The  result 
of  computation  gives: 

:  —  ^017  sin 
—  .002  sin : 


{  — ?oi7sin    o+foi3coso    ], 
—  .002  sin  2  a  +  .006  cos  2  a  J 


wherein  k  =  • 


APPENDIX   III 


339 


The  corrections  computed  from  this  formula  seem  to  be  fairly  well  supported  in  the  individual  zones 
up  to  +  60°.    North  of  the  Pulkowa  zenith  the  observations  do  not  seem  to  require  this  correction. 

(4)  Dorpat  1815.     The  corrections  for  this  Catalogue  are  applicable  to  a  manuscript-catalogue 
compiled  from  Struve's  observations  of  1814-15  (Part  II,  Volume  I,  of  the  Dorpat  Observations). 
Essentially  the  compilation  was  effected  as  follows : 

Constant  corrections  were  applied  to  the  results  for  each  night  in  1815  on  account  of  a  revision 
of  the  places  of  the  adopted  fundamental  stars.  These,  with  adopted  corrections,  are : 

3  S 

Capella  +0.17  a  Persei        +0.21 

Vega      +0.17  8  Cassiop.     +0.24 

o  Cygni  +  0.18  e  Urs.  Maj.  +  0.18 

The  mean  constant  correction  might  have  been  taken  as  +o?i8  without  serious  loss  of  accuracy. 
In  the  observations  are  given,  for  each  star,  coefficients  of  correction  to  be  required  on  account 
of  any  future  revision  of  the  star-constants  adopted  in  the  reductions.    The  present  manuscript- 
catalogue  was  formed  with  adopted  Aberration  =  2o'.'5o  and  Nutation  =  9^224,  the  formula  being : 

—  ?044  v+  ?oi2  o, 
v  and  a  having  the  signification  given  in  the  Observations. 

The  results  for  1814  require  systematic  correction  to  reduce  them  to  conformity  with  the  revised 
right-ascensions  for  1815,  as  described  in  the  foregoing.  The  adopted  value  of  this  correction  is 
in  the  sense  (1815-1814): 

+  o?i8  -  ?044  v  +  [  +  s.oig  +  ^031  sin  (268^5  +  o)]  sec  8. 

The  right-ascensions  thus  revised  for  the  two  years  (half  weight  for  1814)  constitute  the  manuscript- 
catalogue  to  which  is  applicable  the  corrections  given  in  the  table  for  Dpt.  15. 

(5)  Bradley  1755.    These  corrections,  A8a,  are  mean  values  applicable  respectively  to  stars 
south  and  north  of  the  Greenwich  zenith ;  their  determination  is  liable  to  material  uncertainty;  and 
it  is  quite  possible  that  they  could  be  proved  not  constant  in  all  zenith-distances. 

(6)  Dorpat  30.     " Correctiones  Ultimae"  of  the  "Positiones  Mediae"  must  first  be  applied  to 
the  declinations. 

(7)  The  tabular  values  of  systematic  correction  in  declination  for  Edinb  40  are  divided  into  two 
series.     Corrections  A8{  under  Edinb  4oa  apply  to  Edinburgh  observations  until  the  end  of  1840 
and  under  4os  to  observations,  1841-1844;   but  the  value  of  A8.  for  the  two  periods  is  assumed 
to  be  the  same.    The  difference  in  A8{  may  be  partly  due  to  difference  of  computed  refractions 
in  the  two  periods. 

(8)  Radcl  45.    The  Catalogue  declinations  should  first  receive  corrections  taken  from  p.  viii 
of  the  Introduction.    A  similar  correction  is  required  for  Radcl.  60. 

(9)  Cordoba  1875.    There  are  decided  systematic  differences  in  both  coordinates  between  the 
results,  Clamp  E.  and  Clamp  W. ;  also  in  declination  between  the  results  obtained  in  different  posi- 
tions of  the  circle,  the  corrections  in  the  table  require  additional  special  corrections  for  the  separate 
years.     (See  Astr.  Jour.  (No.  550),  Vol.  XXIII.) 

Thus  we  have  the  following  additional  corrections,  Aoj,  for  right-ascensions,  Clamp  E.  For 
Clamp  W.  the  opposite  signs  must  be  employed. 

CORRECTIONS,   CLAMP  EAST. 


S 

Corr. 

S 

Corr. 

o 

o 

S 

-.006 

O 

-45 

S 

+  .029 

-  5 

—  .001 

5° 

+  .030 

10 

+  .004 

55 

+  •030 

15 

+  .009 

60 

+  •030 

20 

+  .014 

65 

+  .030 

25 

+  .018 

70 

+  .030 

3° 

+  .023 

75 

+  .030 

35 

+  .027 

80 

+  .030 

—  40 

+  .028 

-85 

+  .030 

340 


PRELIMINARY  GENERAL  CATALOGUE   OF   STARS   FOR   IQOO 


The  clamp  was  east  in  1872,  1875.67  to  1877.0,  1878,  1880  t%  1884. 
CORDOBA  75.    A88,   TO  REDUCE   SEPARATE   YEARS  TO  CATALOGUE-MEAN. 


Year 
S 

72 

73 

74.0 
to 
75-67 

75.67 

to 

77-o 

77 

78 

70 

So 

S 

• 
o 

It 

+  .72 

// 

-.09 

// 

—  .10 

// 

+  •33 

-.29 

H 

-•54 

// 

-.63 

// 

+  •59 

o 
0 

-  5 

+  .78 

—  .10 

-•17 

+  .26 

-•32 

-.38 

-.62 

+  •54 

-   5 

10 

+  .83 

—  .11 

—  .20 

+  .18 

-.38 

—  .22 

-•59 

+  .48 

10 

15 

+  .87 

-.14 

-•« 

+  .10 

-•44 

-•»s 

-•53 

+  .42 

15 

20 

+  .89 

-•17 

-.06 

+  .02 

-•49 

—  .11 

-•43 

+  •34 

20 

25 

+  .88 

-.19 

.00 

—  .02 

-•S2 

—  .12 

-.28 

+  .28 

25 

30 

+  .72 

-.19 

+  .01 

+  .06 

-•Si 

-.14 

-•25 

+  .26 

3° 

35 

+  •54 

-•17 

+  .01 

+  .19 

-.40 

-.18 

-•23 

+  .23 

35 

40 

+  .47 

--1? 

+  .01 

+  .27 

-•3° 

-•24 

—  .20 

+  .19 

40 

45 

+  .41 

-•'7 

+  .06 

+  •25 

-•32 

-•13 

+  •15 

45 

5° 

+  •35 

-•i5 

+•13 

+  .22 

—  .18 

-.38 

-.04 

+  .12 

5° 

55 

+  .28 

-•*s 

+  .16 

+  .2O 

-•13 

-.41 

.00 

+  .07 

55 

60 

+  •23 

-•13 

+  •15 

+  .18 

-.07 

-.41 

.00 

+  .0S 

60 

65 

+  .18 

—  .11 

+  .12 

+  .16 

-.04 

-•36 

.00 

+  .03 

65 

70 

+  -I3 

-.09 

+  .09 

+  .12 

.00 

-.29 

.00 

.00 

70 

75 

+  .10 

-.06 

+  .07 

+  .09 

.00 

—  .22 

.00 

.00 

75 

80 

+  .06 

-.04 

+  .04 

+  .06 

.00 

-•'5 

.00 

.00 

80 

85 

+  .03 

—  .02 

+  .02 

+  .03 

.00 

-.07 

.00 

.00 

85 

-90 

.00 

.00 

.OO 

,OO 

.00 

.00 

.00 

.00 

-90 

A8a,   TO  REDUCE   SEPARATE  YEARS  TO  CATALOGUE-MEAN. 


R.  A. 

72 

73 

74-0 
to 

75.67 

75.67 

to 
77.0 

77 

78 

79 

80 

R.  A. 

h 

H 

It 

// 

ft 

ft 

// 

n 

It 

h 

o 

—  .02 

+  .09 

+  .14 

-.16 

-.08 

-.19 

—  .01 

+  •37 

12 

I 

+  .01 

+  .05 

+  .20 

—  .12 

-.09 

-.24 

—  .02 

+  .30 

13 

2 

+  .04 

+  .01 

+  .24 

-.08 

-.09 

-.28 

—  .02 

+  .21 

14 

3 

+  .06 

-•°5 

+  .26 

-•°3 

—  .10 

-.30 

-•03 

+  .09 

15 

4 

+  .08 

-.09 

+  .27 

+  .02 

-.09 

-•3° 

-.04 

—  .02 

16 

5 

+  .10 

—  .12 

+  .26 

+  .08 

-.08 

-.27 

-•03 

-•13 

*7 

6 

+.11 

-•IS 

+  .23 

+  •13 

-.06 

-•23 

-•03 

-•23 

18 

7 

+.11 

-•17 

+  .19 

+  .16 

-.04 

-.17 

-•03 

-•32 

19 

8 

+  .10 

-.18 

+  .12 

+  .18 

—  .02 

—  .11 

—  .02 

-.40 

20 

9 

+.09 

-.1? 

+  .06 

+  .20 

+  .01 

-•°3 

—  .OI 

-•43 

21 

10 

+.07 

-.16 

—  .01 

+  .20 

+.03 

+  -°5 

.00 

-•44 

22 

ii 

+  .oS 

-•IJ 

-.08 

+  .19 

+  .06 

+  •13 

+  .01 

-.42 

23 

12 

+  .02 

-.09 

-.14 

+  .16 

+.08 

+  .19 

+  .01 

-•37 

24 

When  the  argument  for  AJa  is  on  the  right,  employ  the  opposite  sign. 


(10)  Cape  80.  The  values  of  Aoj  for  Cape  80  recognize  the  division  into  zones.  The  cor- 
rections vary  abruptly  at  —35°,  —45°,  —55°,  —65°,  and  —75°  of  declination.  For  instance, 
from  —  30°  to  —  35°  the  correction  is  to  be  interpolated  between  +  ^034  and  +?045,  while  between 
—  35°  and  —  40°  the  correction  is  to  be  interpolated  between  +  ^014  and  +  ^024.  Aaa  and  A8S 
are  not  supposed  sensibly  to  depend  upon  the  division  into  zones. 

Since  the  zones  were  completed  one  after  another,  beginning  at  the  South  Pole  in  1871  and 
ending  in  1878,  it  might  be  assumed  that  there  would  be  a  material  difference  in  the  ASa  that  should 
apply  to  the  respective  zones,  due  to  the  differing  amounts  of  variation  of  latitude  in  the  correspond, 
ing  years.  Accordingly  the  values  of  AS,,  under  I  have  been  determined  as  applicable  to  the  ob- 
servations from  the  northernmost  to  —  25°;  II,  from  —  25°  to  —  35°;  III,  from  —  35°  to  —  45°; 
and  IV,  from  —  45°  to  the  South  Pole,  it  having  been  regarded  as  impracticable  to  determine  a  special 
correction  for  each  zone  southward  from  —  45°,  owing  to  lack  of  material. 

(n)  Bradley  1755.  On  account  of  the  abrupt  changes  in  the  curve  (attributed  to  error  of 
graduation)  it  becomes  necessary  to  give  the  correction  AS«  for  every  degree.  The  authority 


APPENDIX   III 


341 


upon  which  this  rests  is  a  revision  of  the  discussion  published  in  No.  545  of  the  Astronomical 
Journal  (Vol.  XXIII,  p.  157);   also,  Catalogue  of  627  Principal  Standard  Stars  (p.  73). 

SPECIAL  TABLE   OF  CORRECTIONS,   A88,   FOR  BRADLEY,    1755. 


South  of  Zenith 

North  of  Zenith 

Above  Pole 

Below  Pole 

S           AS5 

*           A«6 

a      AS5 

S         ASS 

8     A«s 

»      A»j 

*       AS, 

0 

O                            // 

0                            // 

O                            // 

o             // 

O                     // 

0                        // 

+  53-5     +   -°9 

+  27     +    -59 

-  °     +   -75 

+  49-5     -   -°3 

81     —.40 

+  45     +-i° 

+  75     --56 

S3        +   -°6 

26     +    .77 

i     +  .61 

5°       ~   -°3 

82     -.43 

46     +.25 

76     -.48 

52        +   .08 

25       +1.02 

2      +    .56 

51        —  .02 

83     --52 

47     +-i° 

77     -.41 

S2       -  .03 

84     --59 

Si        +  -13 

24       +I.4I 

-  3     +  -75 

48     +.05 

78     --35 

50        +  .18 

23       +1.65 

4      +1.14 

53        -   -°4 

85     --55 

49     +-°9 

79    --39 

49        +  -27 

22       +1.59 

5     +1-32 

54       -  -°8 

86     —  .44 

5°     +-i5 

80    -.43 

55       -   -°4 

87     -.46 

48        +   .22 

21     +I-55 

-   6     +1.29 

51      +-22 

81     -.44 

47         +    .4° 

20        +1-59 

7     +1-25 

56       -   .24 

88     -.51 

S2     +-33 

82     -.34 

46         +    -33 

19        +1.62 

8     +1.19 

57       -   .26 

89     -.5° 

53     +-4i 

83     -.18 

45-5     +  -2i 

58       -  -15 

90     -.44 

18     +1.42 

-   9     +1.14 

54     +-47 

84      —  .02 

45        +   -°3 

17     +1.16 

10     +1.09 

59        +  .32 

55     +  -49 

85      +-I3 

44-5     -   -32 

16     +1.19 

ii     +1.06 

60        +   .02 

56     +-51 

86     +.24 

44         -    .84 

61        —   .40 

43-5     -   -83 

15     +1.39 

—  12     +1.06 

57     +-59 

87     +.24 

43        -   -23 

14     +1.48 

13     +1-09 

61        —   .61 

58     +.67 

88     +.21 

42-5     +   -32 

13    +  I-51 

14       +I.I2 

63         -   -7° 

59     +-4» 

89     +.25 

64        —   .80 

42        +   -63 

12       +1.36 

-15     +1.16 

60     +.05 

+  90     +.44 

41.5     +   -82 

II       +1-34 

16     +1.16 

65        -   -95 

61     —.19 

41         +1.04 

10     +1.42 

17     +1.28 

66        -  1.08 

62     -  .35 

40        +  1.31 

67        -1.14 

9     +i-5° 

-18     +1.62 

63     -  -5° 

39        +1.62 

8     +1.36 

19     +i-75 

68        -   .97 

64    —  .61 

38        +2.03 

7     +1.16 

20     +1.37 

69        —   .82 

65     --7i 

37        +2.36 

70        -   .71 

6     +   .97 

—  21       +I.O9 

66     -.78 

36       +2.52 

5     +  -74 

22      +    .94 

71        -   .68 

67     -.82 

35        +2-23 

4     +   -63 

23        +     .80 

72        —   .62 

68     -.82 

34       +  2.08 

73       -  -38 

3     +   .66 

—  24       +     .60 

69     -.80 

33       +  1-86 

2       +     .78 

25     +  .45 

74        -   .20 

7°     --75 

32       +1.87 

i     +   .86 

26   +  .36 

75        +  -°i 

7i     --65 

31        +1.88 

76       +  .16 

o     +   -75 

-27    +  .41 

72     --49 

30        +  1.64 

28   +  .67 

77       +   .06 

73     --44 

29        +1.29 

29     +1.16 

78       -  .07 

74     --52 

28        +   .87 

79        -  -3° 

-3°     +I-9S 

75     -> 

2?        +   -59 

(31     +2.67) 

80        -  .42 

(32     +2.67) 

81        —   .40 

(12)  Konigsberg  1820.    These  values  of  A.8j  apply  to  the  results  of  Dollen's  reduction  of 
Bessel's  observations.     (Recueil  de  Mem.  des  Astronomes  de  I'Obs.  Cent,  de  Russie,  Vol.  2,  pp.  203- 

232-) 

(13)  Cape  1833.    The  A85  for  Henderson's  Cape  declinations  follows  from  a  special  discussion 
published   in   Nos.   540-541   of    the  Astronomical  Journal,  Vol.  XXIII,  p.  123;    Catalogue  of 
627  Principal  Standard  Stars,  pp.  67-71.      An  important  part  of  the  correction  is  supposed  to 
originate  in  an  abruptly  varying  error  of  graduation.    The  correction  is  most  effectively  given  for 
each  degree,  as  in  the  following  table. 


342 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    IQOO 
A88  FOR  CAPE  33    (HENDERSON). 


s 

A8« 

8 

AS{ 

8 

ASj 

S 

A8s 

o 

+40 

// 
—  0.08 

O 

+  5 

n 

—  0.12 

O 

-31 

+  0.79 

o 

-66 

-0.30 

39 

-0.03 

4 

—  O.I2 

32 

+  0.79 

67 

-0.27 

38 

+  O.O2 

3 

—  O.II 

33 

+  0.80 

68 

-0.25 

37 

+  O.O6 

2 

—  O.I  I 

34 

+  0.80 

69 

—  0.20 

36 

+  O.II 

I 

—  O.IO 

35 

+0.79 

70 

—  0.16 

+  3S 

+  0.14 

0 

—  O.II 

-36 

+  0.78 

-7i 

-0.13 

34 

+  0.18 

37 

+  0.77 

72 

—  O.IO 

33 

+  0.21 

—  I 

-0.13 

38 

+  0.72 

73 

—  0.07 

32 

+  0.24 

2 

—  0.14 

39 

+  0.64 

74 

—  0.04 

3i 

+  0.27 

3 

-0.17 

40 

+  0.51 

75 

—  O.O2 

4 

—  0.19 

+  30 

+  0.29 

S 

—  0.21 

-4i 

+  0.36 

-76 

—  O.OI 

29 

+  0.32 

42 

+  0.22 

77 

o.oo 

38 

+  o-34 

-  6 

—  O.22 

43 

+  O.II 

78 

o.oo 

27 

+  0.36 

7 

—  0.22 

44 

+  0.01 

79 

o.oo 

26 

+  0.38 

8 

—  0.21 

45 

—  O.o6 

80 

o.oo 

9 

-0.17 

+  25 

+  0.40 

10 

—  0.14 

-46 

-0.13 

-81 

o.oo 

24 

+  0.41 

47 

—  O.I9 

82 

o.oo 

23 

+  0.41 

—  ii 

—  O.O7 

48 

—  0.21 

83 

o.oo 

22 

+  0.42 

12 

+  0.01 

49 

-0.23 

84 

o.oo 

21 

+  0.41 

13 

+0.08 

5° 

-0.2$ 

85 

o.oo 

14 

+  0.15 

+  20 

+  0.38 

IS 

+  O.20 

-51 

—  O.26 

-86 

0.00 

19 

+  0.24 

S2 

-0.2$ 

87 

o.oo 

18 

+  O.O2 

-16 

+  0.27 

S3 

-0.25 

88 

o.oo 

17 

-0.23 

17 

+  0.34 

54 

—  0.24 

89 

o.oo 

16 

—  O.29 

18 

+  0.40 

55 

-0.23 

-90 

o.oo 

19 

+  0.47 

+  15 

-0.32 

20 

+  0-53 

-56 

-0.23 

14 

-0.32 

57 

—  O.2I 

J3 

—  0.30 

—  21 

+  0-59 

58 

—  0.21 

12 

—  0.29 

22 

+  0.63 

59 

—  0.22 

II 

-0.25 

23 

+  0.66 

60 

-0.2S 

24 

+  0.69 

+  10 

—  0.22 

25 

+  0.72 

-61 

-0.27 

9 

—  O.2O 

62 

-0.30 

8 

-0.17 

-26 

+  0.74 

63 

-0.30 

7 

-0.15 

27 

+  0.76 

64 

-0.30 

6 

-0.13 

28 

+  0.77 

65 

—  0.30 

29 

+  0.78 

3° 

+  0.79 

(14)  Melbourne  1860.    This  series  of  declinations  determined  at  Williamstown  includes  the 
application  of  the  table  of  corrections  found  in  the  introduction  of  the  Catalogue  (p.  XXI,  Melb. 
Obs.,  Vol.  I). 

(15)  Madras  1875.     The  interpolation  can  be  more  accurately  made  from  the  table  herewith 
having  the  argument  for  each  degree.     For  the  construction  of  the  table  see  Astronomical  Journal, 
Vol.  XXIII,  p.  210;  also,  Catalogue  of  627  Principal  Standard  Stars,  p.  98. 


APPENDIX   in 
SPECIAL  TABLE  OF  CORRECTIONS,   A88,  FOR  MADR  75. 


343 


s 

AS« 

S 

ASs 

S 

AS* 

8 

ASs 

8 

AS« 

I 

+90 

tt 

+  0.46 

0 

+  45 

-°-39 

0 

+  10 

// 

—  0.50 

0 

-26 

IP 
+  0.19 

O 

-61 

// 

(+1.70) 

85 

+  0.56 

44 

-o-45 

9 

-0.71 

27 

+  0.42 

62 

(  +  i-?o) 

81 

+  0.36 

43 

-0-53 

8 

-0.88 

28 

+  0.54 

63 

(+1.60) 

42 

-0.63 

7 

-0.86 

29 

+  0.64 

64 

(+1.40) 

+  80 

+  0.31 

41 

—  0.67 

6 

-0.79 

3° 

+  0.69 

65 

(+1.20) 

79 

+  O.2I 

7« 

+  O.IO 

+  40 

—  0.44 

+  5 

—  0.67 

-3i 

+  0.74 

-66 

(+I.IO) 

77 

+  O.OI 

39 

-0.45 

4 

—  0.42 

32 

+  0.79 

67 

(+1.20) 

76 

—  0.07 

38 

—  0.56 

3 

—  0.08 

33 

+  0.84 

68 

(+1.40) 

37 

-0.58 

2 

+  0.28 

34 

+  0.89 

69 

(+I-70) 

+  75 
74 

—  0.05 

—0.08 

36 

-0-53 

I 

+  0.39 

35 

+  0-95 

70 

(+2.00) 

73 

—  0.16 

+  35 

-0.34 

O 

+  0.38 

-36 

+  1.09 

72 

-0.34 

34 

—  0.07 

37 

+  1.24 

7i 

—  0.50 

33 

+  0.14 

—  I 

+  0.61 

38 

+  1-23 

32 

+  0.28 

2 

+  o-57 

39 

+  1.16 

+  7o 

-0.68 

3i 

+  0.37 

3 

+  0.39 

40 

+  I.H 

69 

-0.85 

4 

+  0.13 

68 

—  I.OI 

+  30 

+  0.42 

5 

—  0.16 

—  41 

+  0.09 

67 

-0.97 

29 

+  0.46 

42 

+  0.89 

66 

-0.89 

28 

+  0.50 

-  6 

-0-35 

43 

+  0.80 

27 

+  o-53 

7 

—  0.48 

44 

+  o-73 

+  65 

-0-75 

26 

+  0.52 

8 

—  0.42 

45 

+  0-75 

64 

—  0.50 

9 

-o-33 

63 

—  0.14 

+  25 

+  0.56 

10 

-0.23 

-46 

+  0.72 

62 

+  O.22 

24 

+  0.71 

47 

+  0.64 

61 

+  0.44 

23 

+  0.88 

—  ii 

—  0.14 

48 

+  0.46 

22 

+  0.88 

12 

—  0.09 

49 

+  0.30 

+  60 

+  o-55 

21 

+  0.81 

13 

—  0.08 

5° 

+  0.13 

59 

+0.58 

14 

—  O.I2 

58 

+  o-53 

+  20 

+  0-75 

15 

-O.I? 

-51 

—  0.04 

57 

+  o-35 

19 

+  0.63 

S2 

—  0.18 

56 

+  0.09 

18 

+  0.50 

-16 

-0.23 

53 

—  O.I2 

17 

+  0-39 

'7 

—  0.29 

54 

0.00 

+  55 

—  O.2I 

16 

+  o-3° 

18 

—  O.4O 

55 

+  0.16 

54 

-0.44 

19 

-0.43 

53 

—  0.56 

+  15 

+  0.29 

20 

—  0.20 

-56 

+  0.44 

52 

-0.51 

14 

+  0.22 

57 

+  0.82 

51 

-0.45 

13 

+  O.O9 

—  21 

—  O.2I 

58 

+  I.2I 

12 

—  O.IO 

22 

-0.31 

59 

+  1-45 

+  5° 

-0.38 

II 

-0.30 

»3 

-o-33 

60 

(+1.60) 

49 

—  O.JO 

24 

—0.28 

48 

—  O.26 

25 

—0.08 

47 

—  0.28 

46 

-o-33 

(16)  The  weights  for  Piazzi  as  used  in  the  computations  for  this  Catalogue  were: 


No.  Obs. 

Wt. 

No.  Obs. 

Wt. 

5-7 

•°3 

15-  '9 

.06 

8-10 

.04 

20—26 

.07 

11  —  14 

•°5 

27-34 

.08 

35  + 

.10 

(17)  Pulk  55.  The  weights  in  right-ascension  for  this  Catalogue  vary  decidedly  with  the  decli- 
nation. The  first  column  may  be  applied  to  all  observations  south  of  +  30°.  Weights  between 
+  30°  and  +  40°,  and  between  +  40°  and  +  70°  may  be  interpolated;  and  north  of  +  70°  may  be 
taken  as  at  70°. 


344 


PRELIMINARY  GENERAL  CATALOGUE  OF   STARS   FOR    IpOO 


(18)  Albany  oo,  Manuscript-catalogue.     The  weights  in  right-ascension,  after  a  very  careful 
discussion,  were  tabulated  as  follows: 


i  obs. 

2  obs. 

3  obs. 

4  obs. 

-2I°to—  29° 

•7 

1-5 

2.0 

2-5 

-30° 

.6 

.0 

2.O 

2-5 

31 

.6 

.0 

2.0 

2-S 

32 

.6 

.0 

1-5 

2.0 

33 

•5 

.0 

i-5 

2.0 

34 

•S 

.0 

i-5 

2.0 

35 

•4 

1.0 

I.O 

1-5 

36 

•4 

•  7 

I.O 

I  -5 

37 

•3 

.6 

I.O 

I.O 

38 

•3 

•S 

•7 

I.O 

39 

.2 

•4 

.6 

•7 

40 

•IS 

•3 

•4 

.6 

4i 

.07 

•IS 

.2 

•3 

These  weights  apply  to  observations  in  a  single  clamp,  and  were  summed  for  the  two  clamps. 
Up  to  4  observations,  however,  the  table  applies  sufficiently  well  if  the  argument  be  total  number  of 
observations,  irrespective  of  the  number  in  each  clamp. 

(ig)  Lick  1900.  These  weights  apply  to  the  observations  of  Piazzi  stars  south  of  the  Equator. 
For  16  observations  of  circumpolar  stars  the  adopted  weight  is  5.0. 

(20)  Pulk  45.  From  declinations  +  55°  to  +  65°,  one  half  these  weights  in  declination  apply. 
Special  Z.  D.  factors  are  employed  as  follows: 


At  Decl. 

Multiply  Weight  by 

I 

+  10 
0 
—  IO 

-is 

.8 
.6 
-4 
•25 

(21)  Pulk  55.    By  far  the  most  frequently  occurring  number  of  observations  in  this  Catalogue 
is  4,  and  for  this  the  weight  in  declination  was  computed  to  be  .8.     This  weight  was  employed. 

(22)  Pulk  65  and  Pulk  85.     For  these  two  Catalogues  the  weights  are  modified  in  the  same  way. 
From  declinations  +55°  to  +65°,  the  weights  should  be  multiplied  by  .5;   and  as  follows  at  the 
respective  declinations : 


S 

Factor 

+  10° 

I.O 

o 

-  s 

0.7 
0.6 

—  10 

°-S 

-15 

0.3 

—  20 

O.I 

(23)  Wien-Ottakring  97. 

table. 


From  35°  to  40°  of  declination  the  weight  is  one  half  that  of  the 


APPENDIX   III 


345 


(24)  Albany  1900.    The  following  weights  in  declination,  derived  from  special  investigation, 

were  adopted. 


I  obs. 

2  obs. 

3  obs. 

4  obs. 

8  obs. 

0 

—  21 

°-5 

0.9 

i-3 

i-5 

3-5 

-23 

°-4 

0.8 

1.2 

1.4 

3-° 

~25 

0.4 

0.8 

I.I 

«-3 

3-o 

-27 

°-3S 

0.7 

I.O 

1.2 

3-° 

-29 

°-3 

0.6 

0.9 

1.2 

2-5 

-31 

°-3 

°-5 

0.8 

I.I 

2.0 

-33 

0.2 

0.4 

0.6 

0.8 

'•5 

-35 

0.15 

°-3 

°-5 

0.6 

'•5 

-36 

O.I 

0.25 

0.4 

°-5 

i.i 

-37 

O.I 

O.2 

°-3 

0.4 

0.8 

-38 

O.I 

0.15 

O.2 

°-3 

0.6 

-39 

0.05 

O.I 

O.2 

°-3 

o-5 

-40 

0.05 

O.I 

0.15 

O.2 

0.4 

The  weights  for  each  position  were  taken  from  this  table,  and  the  sum  of  the  two  weights,  when 
observations  were  obtained  in  more  than  one  of  the  four  circle  positions,  AW,  AE,  BW,  BE,  con- 
stitutes the  adopted  catalogue-weight.  In  practice,  the  above  table  applies  sufficiently  well,  with- 
out taking  into  account  the  separate  positions,  when  the  whole  number  of  observations  in  the 
Catalogue  is  less  than  five.  The  last  column  under  the  caption  "8  obs."  refers  to  the  numerous 
stars  that  were  symmetrically  observed  twice  in  each  of  the  four  positions  of  the  circles. 

(25)  Cape  oo.  This  includes  the  zone  of  reference  stars  for  the  astrographic  chart,  with  mis- 
cellaneous observations  outside  the  limits  of  the  zone.  The  systematic  corrections,  and  espe- 
cially the  weights,  are  largely  inferred  from  the  corresponding  quantities  for  Cape  06,  since  the 
material  for  an  independent  determination  is  very  scanty. 


(86& 

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